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310 USER MANUAL - Noble 3D Printers

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1. nlend 54 Chapter 6 OST POC eS SUNG eii dioc NN A ME loci 55 Removing the Primed gg EET 56 Dep wderng the uec d e A PRE MEM e en 57 TAB Depowdernng e oO A 58 TAD Boe e idb cm 61 Using the External Vacuum Bag Liner 2oieseisonecorcteca inuasit leme esu hu emus likle mut ana d USER P eS EO slmlar 63 Bie io Dci li Gy EO CO O O Lm 66 POST PICOS MO Mee NE m 67 Infiltrating the Part with Z Kote Resins s sen d de aka ea bui naa CEP knew wp VR mat us G li lama 69 Uong eioalmoodqe 69 Using ZBond TM Cyanoacrylate susce ursa ete ta meki asndan alakaya aa piece peas 71 Jna ls RM m lt 72 Using Paraplast X TRA WAaX ee neem sante us tid rli lan a ma b nl eS Susa n mel ali ella esed s op cese eani 73 Chapter 7 Applications T suna EE il ayan e ni T 74 I ae pg NR EE 76 A E e ONE E E PN EEE a oa Pe e re 77 OVS SLOT RETE MY 0 eee 78 ICC TOPIA UN A o E PEO O EE Rm 79 Valer Tancer PAI cnica 80 io A A m 83 PIONS RAS E T E E TM 85 TFC FIGs OMNI PET REP TUE 86 sibdisnsmMe T 88 Chapter 9 Metin AP alla am nala 92 Changing Prnt A q A PE PEPE ME KEP events 93 dearing TOO ad or RE 95 reed e SU AIG REP AA ME e no aE eaa TEn 96 Refilling the Wash Fluid Reservoir reeder aa er ia eli 100 Greasing the Slow AXIS 1 NR A PE E RR CE EU nn des ossis anie ienai 102 Peas a the ci belt i EC
2. een 16 5 3 2 Shell a FE AN d s 17 53 3 CombinatiinMethod eee 18 54 PrintingYourModel e 18 DS A A MR O PORO O senses 18 6 Design Techniques with ZCast Patterns 19 61 A e O a E a E 19 6 2 MoldParislargerlhanBuildVolume n 19 6 3 sShelliingyourMold nnnm nnnm nnn nnn nnns nnns 19 bd Sulening RIDS diii inte lr id la alak a eb ut eas ctetu elek ttu 20 OS one NUMERI UTI 20 6 5 1 V CMMI GG OES RR Ncc 21 652 Vening the MONG T 22 SAONE e e Ec AN MM ME la 25 6 7 o Depowderabilitiy Fixedvs RemovableCores 26 09 Mating eg A a 26 6 9 Geometry Guides ti inin led e ete bdo e lol degi en olanak ani itia mail 27 6 10 Wall Thickness Gidelim ES 2 treo ashen ds a eros treu 27 6 11 Pouringeleevesss RI Ss 28 6 12 eoe 28 6 13 o IC CC Em 28 sm em Machine Settings vase attest leet MUT 29 6 14 Degassing and Filtering Metal ccooonccccccononccconnncoconnnnnonononnnnannnononnononnanoncnnanons 29 7 Mel Prepara Musso 31 Mola WAS E TT 31 e tic I dc ix a i i M E 31 Filta DEO OW OE m IH dea olaaa nicas 31 ZCast Design Guide 2 Appendix e A EEA 31 A ee ee male a ee 32 Sn M 32 G POURING i e Uu 33 Dul Metal VOCS nips aren E ECO EE e
3. 4 Remove the print head by holding the printhead on two sides and pulling it directly up www zcorp users com 93 Change Print Heads X Press Start to begin the print head change procedure When the print heads are changed press Done 94 6 Place the new print head in the carriage and push down to secure the print head The print head should seat firmly in the carriage 7 Close the carriage cover and press on the carriage cover lock until it clicks to ensure the cover is properly latched 8 Close the top cover of the printer 9 Press Online on the control panel or Done in the software when complete 10 Fill up the binder bottle 11 Make sure waste bottle is empty 12 To purge the print head of HP ink choose the Purge Print Head option under the ZPrinter 310 Service menu When the purge cycle is completed The printer will stop beeping Technical Tip If you need to work in another dialogue box click the close window button X located on the upper right hand corner NOT THE DONE OR CANCEL button You may continue purging Complete the procedure by pressing the Online button on the printer when complete service zcorp com CLEANING Poco Pins In general there is no need to clean the pogo pins upon replacing the print heads At times they may need to be cleaned due to errors in communication between the print head and printer such as when receiving Head ROM errors or when it i
4. 3D Print Setup Printer z406 Offline Select Printer Save Printer as Default Powder ZB55 ZP102 Use Default Powder Save Powder as Default w il Layer Thickness TOUA in Saturation Ir Anisotropic Bleed shell Core Scaling Compensation Binder Volume Ratio 290 149 7 On Saturation Level 100 100 X Imre x EUM Saturation iz i 085 7 Y 1 Y 0 007 in 2 1 Z oo in Overnde Use Default Save as Default Reset Factory Settings e PART REMOVAL AND POST PROCESSING 1 When printing parts that can be manually handled allow the part and fixture to dry in the build bed for at least 2 hours before removing If printing parts that cannot be manually handled please refer to the Infiltration Addendum of this set of instructions Parts built deeper than 2 inches 50 8 mm into the build box may require longer drying time before handling If the removable build plate was used the part can be gross depowdered and removed prior to two hours and placed in an oven at 150 F 66 C for at least 2 hours or longer depending on the mass volume of the part If a fixture was used during the printing process it should be used as a cradle for the part during the infiltration and curing steps as well 2 Depowder the part and the fixture 3 Remove part from build plate and place on a clean surface Then separate the part from the fixture 36 service zcorp com 4 Appl
5. 6 12 Squirts Hold the color binder bottle with pump attached up to the opening of the ZPrinter 310 feed bottle and add the desired amount of color binder Each squirt is approximately 1 ounce of binder Darker or lighter shades of colors can be achieved by adding more or less of the corresponding desired color ratio pink can be achieved by cutting the quantity of total color binder added by two A part will appear more vibrant after infiltration PLEASE NOTE Higher concentrations of color binder than those stated above will reduce print head life less than 30 billion pixels The reduction of print head life will lead to premature head over temp errors and striping during print jobs www zcorp users com 105 BLEEDING AIR FROM THE FLUID LINES If air gets into the tubing due to inadequate supply of binder or through removing the binder bottle bleed the air to prevent damage to the print head 3l Service Purge Print Heads Unpark 1 Select the Unpark option in the ZPrint Software Print Head Report under the 310Service menu View Printer Log Maintenance Fill Bed 2 Lift the top cover of the printer Edit IMI File Send File Receive File 3 Open the carriage cover to expose the print head 4 Remove the print head 106 service zcorp com of liquid 5 Insert syringe into septum and remove the air and 10 cc i x 6 When completed re insert print head close carria
6. Repeat steps 5 for every two scoops of powder 6 When the feed box is filled to the top take the tamper and slowly press it into the powder surface Be careful not to slap the tamper into the feed box which will produce airborne particles About 10 15 pounds of force will give it a smooth flat and compact surface Failure to firmly pack the powder will affect part quality 41 PREPARING THE BUILD AREA 7 Press and hold the feed up button until the surface of the powder is even with the top deck C yos a me BER 2 8 Press and hold the build up button until the build piston stops 9 Make sure the build area is clean If using a build plate see directions below The build plate is a useful tool in making the most out of your 3D Printer It allows you to lift delicate parts from the printer without handling them It may allow you to safely remove parts from the machine sooner after they are printed so that you can start another build while your parts dry outside the printer You can use the build plate to transfer your parts to an oven to dry them quickly to their full green strength Bring build piston all the way to the top and place build plate on top of build piston 42 service zcorp com The build plate will project above the top of the build box In this position the gantry would hit the build plate if you tried to spread powder 5 4 Fa uh de ie A Lower the build piston so
7. WATER TRANSFER PRINTING Water transfer printing is a process that enables 2D printed patterns to be applied to three dimensional objects The process is suitable for production as well as prototyping Currently the most prevalent use of water transfer printing may be in auto finishing As shown in the picture below many trim packages utilize the process to mimic high end wood finishes on plastic or metal components The process is also often used on small electronics equipment decorative items and architectural trim The process transfers a 2D image onto a 3D object by floating the image on the surface of a heated water bath and dipping the 3D object through the image into the bath A subsequent sealing step with a spray lacquer gives the part durability with a wide range of surface finishes Any part that can be primed and spray painted can be dipped Equipment manufacturers such as Dips n Pieces claim that virtually any geometry can be dipped With proper masking parts can be dipped from all directions to give a near continuous pattern on every surface of a part There is some equipment to purchase and set up to be able to perform this printing process in house however there are several service bureaus that will dip parts for a fee Any image can be transferred to the object however standard patterns and color combinations prevail at most service bureaus The process is also referred to as Dip Printing Immersion Printing 3D P
8. 2 Turn off and unplug the printer 3 Remove the overflow bucket and locate the two pis ton screws 4 Take grease supplied in the toolkit and apply grease onto entire the length of both feed and build piston SCrews 5 Take a paper towel and lightly wipe the feed and build piston screws in order to distribute grease 6 Replace the overflow bucket 103 CHANGING BINDER TANK At times you may choose to change material systems You may use a second binder tank to facilitate the change Over 1 Carefully lift and move the binder bottle towards the front of the printer 2 Press release latch and pull the tubing out 3 Insert tubing into latch from new binder bottle and secure binder bottle in place on top cover 4 Perform bleed air procedure to remove old binder and air from tubing 5 Purge or change the print head to flush the remaining old binder from the fluid system 104 service zcorp com CHANGING BINDER COLOR Add the following mixtures of color binder to the ZPrinter 310 feed bottle 3 4 full with clear binder to achieve your desired color These ratios are based on the 1 5 liters of clear binder in the feed bottle prior to adding any color Quantity of Color Binder Added to Feed Bottle with Clear Binder d8Squrs NA i 3 Squirts 12 Squrs i8Squrs i2Squts Blue iSSqurs 3Squ s Squirts 18 Squirts qe
9. Arching is a concavity phenomenon that occurs as moisture evaporates from the first few layers of a part that has been printed ZCast Design Guide 28 Appendix e For mating parts such as a cope and drag of the same mold try to always print them in the same orientation in the build 6 13 1 Machine Settings Use the following optimized print settings for printing ZCast 501 powder with zb 56 binder Saturation Settings Layer Thickness 0 005 Bleed Compensation Settings MEME ZPrinter 310 79406 79810 Table 1 6 14 Degassing and Filtering Metal To help achieve improved part quality steps should be taken to properly prepare the metal for pouring Two typical foundry practices are degassing and filtering When properly taken these steps help to yield quality parts in any foundry Filters can be added directly to the mold This can be accomplished by O Figure 12 Refractory sleeves and strategically locating filters within the drag assembly as shown in Figure 13 filters Design slots or shelves in the drag for filter placement Other options include using foundry consumables with ceramic inserts as shown in Figure 12 Accumulated slag on the top of the crucible should be removed prior to pouring ZCast Design Guide 29 Aopendix Cope x _ Cope d Filtered metal Filtered metal Direction of incoming Figure 13 a b c Horizontal filter orientation Metal rises up thro
10. ZPRINTER 310 User MANUAL PART NUMBER 09508 Rev F SEPTEMBER 2004 Table of Contents Chapler TOVEFVIEW NOR LR A 4 Manual OvervieW M J PEON I UVO e E E A E a yl basa aka gam rnek 6 System Components e 9 A lila ed e le ee o PA 10 Chapter 2 Quick Start KN il la af il 14 PrinterPreparatlon aaa een enne anana 15 AEE A Ye 17 ELM A P 19 mieiduiiee 9 10 A AM AY PE MM Yy 23 8 iMj 24 Pan Setup and ROSEPTOCO MN escaner han n Er curte znine koc venta ei iod secon 24 Oven Dry the gi PK 25 P O MNT Emm 25 Chapter 3 Material Systems eee aa ara 26 Using ZCast Powder E 27 General ITM OITA OWN A EE EEA E EN A YY 27 Using ZCast On Your ZPrinter amp 310Printer AMAMA e e gt gt mnm gt m gt m gt m gt m gt L mnmnmmm mm 27 EO AGING ddnde e nO TTD 32 Seting Up ZCast Bold NETTE A YY NY A TEER m 32 POS PrO OS I Tm 32 Material Ordering EEEIEE 33 FS 1 MING ira TT 33 Jn PP AAA 33 o EE ERENER NM MR A AM A EMAYE PA o AA 33 usma z e e pts 34 Macine no m 34 SOLN e UD ME EEE E A N 34 Pan Removal and Post FTOCOSSIFIQ smile
11. e Do not over apply the material as it will pool off the part during curing e Better penetration depth is achieved by applying several light coats of material e Allow all mixed materials to cure prior to disposal www zcorp users com 69 Spraying Instructions 1 Use a Gravity Feed High Volume Low Pressure or HVLP Sprayer We recommend a DeVilbiss Sprayer with 14 18 mm tip The DeVilbiss Sprayer is available from Z Corp with disposable canister liners and will minimize the amount of cleanup ALWAYS SPRAY IN A VENTED HOOD 4 Spray resin between 15 20 psi 1 1 4 bar 5 When finished remove the disposable liner and clean the sprayer with a mild solvent such as isopropyl alcohol or acetone Remove the tip and thoroughly clean by hand to avoid resin build up Cleanup takes approximately 15 minutes 2 Have the sprayer parts and materials ready before mixing the resin 3 Mix resin and pour into the disposable liner in the canister CURING INFORMATION The resin can be cured at an accelerated rate in an oven The oven must be vented Ventilation designs need to meet each customer s respective governmental health and safety requirements A reference frequently used by U S firms to comply with OSHA regulations is the American Conference of Governmental Industrial Hygienists Industrial Ventilation Manual At 160 F 71 C your part will reach full strength in 2 hours Allow the part to cure for 1 hour at
12. Design molds to ensure at least 0 5 inches 13 mm mold wall thickness ZCast Design Guide 27 Appendix 6 11 Pouring Sleeves amp Risers A pouring sleeve is a tapered cylinder made of a refractory material with a ceramic filter at the base he filter is removable so the pouring cup can be used as a riser as well There is no requirement to use sleeves but the convenience is an advantage Pouring sleeves are inexpensive come in several sizes have a variety of filters available and work well with ZCast molds A conical seat should be printed in the mold to accommodate and position the sleeve The sleeves should be attached to the ZCast mold with a foundry adhesive or core paste For safe measure they can be clamped or wired in place to prevent shifting during pouring Additionally you can design a pouring sleeve to be integrated as part of your ZCast mold Be sure to make allowances for filter insertion to help alleviate impurities when pouring Pouring sleeves attached to the ZCast mold with core paste A CAUTION May shift while pouring molten metal into the mold Leaking of molten metal may cause personal injury Attach sleeves with clamps and securing wires as needed 6 12 Chills Chills will be familiar to experienced foundrymen The purpose of a chill is to help rapidly solidify the molten metal in a portion of a casting Controlling the solidification rate in this manner helps to control the grain structure keeping
13. The image is pressed to the parts evenly by the pressure of the water If there are several parts to be dipped they are mounted to a fixture and dipped simultaneously Washing and Drying The printed parts are washed to rinse off remaining pieces of film and dried Due to the exposure to water here Z Corp parts must be well infiltrated and finished completely with the primer even if the image is to be partially applied Top Coating The parts are clear coated or varnished to protect the printed surface A varying degree of gloss can be achieved by using different top coats Polishing completes the process Presenting The finished parts can now be used The surface can be very durable and scratch resistant depending on the top coat used so the finish will stand up to many functional applications 81 Typical Site Requirements from www dips n pieces de sufficiently sized and ventilated room with a humidity of less than 6096 and with a waterproof and solvent agent resistant floor dip printing system with suitable power requirements water supply for filling and refilling the basins drainage for used water compressed air supply for the activator pistol dry and dark place for storing the printing films suitable painting facility for priming and clear coating varnishing the parts protective clothing such as breathing masks and gloves Suppliers Service Bureaus There are a limited number of companies that provide this serv
14. or marks in the part to act as guides for drilling but the process will require the use of a mechanical drill to fully incorporate the hole into the mold Drill diameters should be the same as used when creating molds from aluminum or other non permeable materials 4 Drying the molds will need approximately four hours minimum of drying time at 150 F 66 C to maintain a usable strength 5 It is often useful to use STL editing features to improve the accuracy of the final mold If using the Magics RP software for STL file editing read the help section regarding the offset function In summary a For applying correction to the part on flat faces of the block use the Extrude command on each face For the faces of the part that have curved features use the offset command 6 Resin a Epoxy resin works best in terms of speed ease of use and strength 7 Sanding is optional some users are satisfied with the surface finish as is 8 Usage life Individual molds have consistently produced 10 20 parts successfully without the use of a release agent www zcorp users com 87 RIV MOLDING Room Temperature Vulcanization RTV molding also known as Silicone Rubber Molding SRM is an inexpensive soft molding solution for creating dozens of prototypes accurately The benefit of RTV molding is that anyone can do it because of its simplicity Factors such as draft complex parting lines and undercuts are not factors in building effective mol
15. others will need several as shown in Figure 16 The mold in Figure 15 has three separate cores In traditional casting for every core a tool called a core box must be made A core box is essentially a machined mold used to form sand cores on a large scale basis Complexity varies from simple to complex with separate cores and multiple components Figure 17 11 1 3 Core Prints Core prints are simply the locations at which the core lock into the cope or drag typically the drag These are designed to minimize the amount of flash metal leaking between mating surfaces between the cores and the cope and drag They also key into the drag typically utilizing drafted walls to help maintain accuracy and positioning of the core in the proper location Appendix Figure 15 Cope and drag manifold Figure 16 Cores for manifold casting Figure 17 Multi piece core ZCast Design Guide 37 Appendix Core prints light areas 11 1 4 Pouring Cup The pouring cup as the name implies is where the molten metal is poured into the mold The pouring cup can take many different forms each to optimize the feeding of metal into the mold and minimize the amount of turbulence produced in the metal stream Pouring Cup Figure 18 Core prints pockets where cores lock in place drag of manifold from Figure 15 11 1 5 Sprue The sprue connects the pouring cup to the gating system Oo Figure 19 Pouring
16. this guide has been written with all users in mind It is meant to be a guide to provide a framework for designing molds for use with ZCast But it also covers some of the basics of sand casting to help familiarize those with less casting experience Z Corporation is dedicated to your successful application and usage of this product Please contact Z Corporation directly to schedule a free online training session at 781 852 5005 Ask for the ZCast applications engineer or email the applications team at applications zcorp com ZCast Design Guide 4 Appendix 2 General Safety This manual has safety information and instructions to help users reduce or eliminate the risk of accidents and personal injuries This section briefly explains hazards associated with fabrication of metal parts using the ZCast process 2 1 Safety Precautions The making of molds and casting of metal parts using the ZCast process involves steps such as mold baking and handling molten metal that have particular safety hazards Designers fabricators and foundry operators should be experienced or under supervision to perform these process steps using safe operating procedures The mold baking step emits smoke and gases that are toxic and irritating Refer to the ZCast 501 Powder MSDS for more information on these health hazards Ovens must have exhaust fans and be vented to the outside Operators must wear heat resistant Personal Protective Equipment PPE whil
17. Bringing the vents close to the casting surface runs the risk that the metal will break through so limiting their openings to the upper surface of the cope limits the risk of leaking metal metal and cause personal injury A CAUTION Vents not located in the cope may unexpectedly leak molten e Mold vents may be designed into the mold and printed or they may be drilled in after printing Modifications like these and the tooling to perform them are commonplace in traditional sand casting foundries It may be the choice of an experienced foundryman to vent a mold in this manner ZCast Design Guide 23 Appendix Make sure that geometries are properly shelled Almost all molds are capable of having sacrificial outer surfaces that can be removed to allow for even baking and proper gas dispersion during the pouring process see below Mold Cavity Section View of Mold Make certain that if the mold has a core that the core is properly vented to the atmosphere to allow unimpeded release of gas For situations where large surface area to volume ratio geometries are present i e thin wall mold geometries skillfully design vents so that gas can readily escape from the large surface area It is worth noting that these molds are the most challenging geometries for ZCast because the user must ensure adequate mold ventilation while also ensuring mold strength with thin wall geometry Thin mold geometries can prevent
18. Clearance 0 125 0 25 3 175 6 35 mm Top Surface Thickness 0 1 0 25 2 54 6 35 mm Wall Thickness 0 1 0 25 2 54 6 35 mm Distance Between Wall by X 0 5 1 0 12 7 25 4 mm Distance Between Wall by Y 0 5 1 0 12 7 25 4 mm Accuracy Coefficient High enough to avoid collisions between the part and the fixture e g 8 34 service zcorp com e To change the default values in the Make Fixture window select Preferences from the ZPrint Edit menu and select the Fixtures tab Enter the new values and click OK Preferences Edit General Rendering ImporWExpon M Fetes ShowLayers Email Sue Colts Clearan a in Copy Citi zd Paste Ctri V Top Surface Thickness n2 in O Wall Thickness 002 in Select All CHA Distance ekran DX os Empty clipboard Distance between walls by Y D4 E Normals E Accuracy coefficient 2 Make Label _ Fire Color E Unde Label Wake Solid Make Fixture e To create a fixture that completely cradles the entire part raise the part in the z axis at least 0 5 12 7 mm from the bottom of the build plate in the ZPrint Software If the part is not raised it will not be fully supported by the fixture after depowdering FP rid ER ZTL RE STR ii 11 E Leni xj 2 ue www zcorp users com 35 e Goto the 3D Print Setup window under the File menu and select zp250 powder as the powder type
19. EE Em 103 Changing Binder Tank aze ctr imdi e ime li o imac anlak 104 Ghanging Binder eg cmm 105 BleedingAirfromtheFluidlines aneen 106 nn PP E EE A 107 Chapter 9 System Detalls see m aaia a b a rl da lele ia yal 108 SAPORE nn A T e 109 SELEUS CHICA LOANS esteros 109 Material Storage Precautions wi sisaceecsceviacccnnnvensseneuexpconceaanadecd Seli asama sda peel gym elli m bile G seul chensninssoediezesnd 110 1 AA A OE E O UE O NE 111 CHAPTER 1 OVERVIEW THIS CHAPTER WILL GIVE YOU AN OVERVIEW OF THE PRINCIPLES BEHIND THE ZPRINTER 310 SYSTEM FAMILIARIZE YOU WITH THE TERMI NOLOGY WE WILL USE TO DESCRIBE THE SYS TEM AND INTRODUCE YOU TO SOME OF THE FEATURES OF THIS MANUAL FOR ADDITIONAL INFORMATION PLEASE CONTACT THE Z CORPORATION SERVICE DEPARTMENT AT 781 852 5050 TOLL FREE AT 877 88 ZCORP or VIA EMAIL AT SERVICE QZCORP COM YOU MAY ALSO VISIT THE User GRouP WEBSITE AT WWW ZCORP USERS COM service zcorp com MANUAL OVERVIEW This ZPrinter 310 User Manual will speed you along the path towards quickly and inexpensively building parts We recommend that you use this manual together with service training for best results The manual contains the following sections 1 Introduction This section provides an overview of the principles behind the ZPrinter 310 System familiarizes you with the terminology we will use to describe the System and reviews the c
20. Information 71 General Application 71 Safety Precautions 71 Spraying Instructions 71 Infiltrant Cyanoacrylate 71 Applications 74 Electroplating 79 Flexible Parts 85 Gluing Multi pieced Parts 76 Investment Casting 83 Multi pieced Parts 76 Painting 77 Painting Parts 77 Polyester Resin 78 RTV Molding 88 Thermoforming 86 Water Transfer Printing 80 B Back Cover Removal 102 Back Panel 11 Binder Change 104 Change Color 105 Binder Bottle Refill 47 Removal 104 Bleed Air Septum 107 Syringe 107 Build Plate 42 build plate 42 Build Settings 52 C Carriage Cover INDEX Close 94 Lift 93 Collision Detection 53 Control Panel 13 D Depowdering 57 Air Pressure 57 Drying Time 66 E Electroplating 79 EZ Print 19 F Fast Axis Oil 96 File Hollow 50 Import 50 Open 50 Overhang 51 Fill Powder 40 Flexible Parts 85 G Gantry 12 Gluing multi pieced parts 76 Grease Piston Screws 103 Slow Axis 102 Infiltrant Apollo 5005 71 Wax 73 Z Max Epoxy 69 Infiltrating 69 Investment Casting 83 L Layer Thickness 6 M Machine Status 107 Massachusetts Institute of Technology 6 Multi pieced parts 76 O Oil Fast Axis 96 Wicks 98 Overflow Bin Emptying 40 P Painting 77 Painting Parts 77 Parking Cap Wipe 45 Part Accuracy 8 Depowdering 57 Drying Time 66 Import 50 Infiltrating 69 Open 50 Orient 50 Hollow Part 50 Placement 7 Removal 56 Set Time 56 Strength 7 Part Orientation Circular Featu
21. It is advantageous to use native files If it is not possible next best would be an IGES or STEP file If neither choice is available an STL sterolithography slice file would be suitable with a package like Magics RP Processing tends to be much slower when working with STL files Add finish stock to machined surfaces typically 0 080 in 2mm Apply shrinkage factors based on material to be cast and part geometry Define and divide out cores using surfaces generated within the model Add core prints to the cores Design the gating system as a positive component around the part to be cast Encapsulate the part and gating within a larger form typically a rectangular block Subtract the casting and gating and core prints away from the larger block leaving the mold cavity Generate a parting surface and split the mold block ZCast Design Guide 16 Appendix 9 Add mating features to help align the mold components These can be simple holes pegged with dowel pins or mating positive and negative features built into the model 10 Add venting to the mold cavity and to the cores 11 Add flanges or seats for prefabricated pouring cups if utilized direct pour only 12 optional Lighten mold pieces by cutting out material from heavy mold sections direct pour only or shell the entire mold to approximately 0 5 to 0 75 in 13 to 19mm Shell method only 13 Add mating surface offsets to facilitate assembly of components 1
22. Parting Line Hemove the mold box from around the mold Using a razor blade or scalpel begin to cut the mold open at the gate and vent This will begin to create the parting line for the mold Cutting in a smooth zigzag motion will make the mold halves easier to re assemble in preparation for urethane casting Slowly cut deeper to the edge of the pattern Keep in mind where the mold parting line will be on the pattern The parting line should be placed on an edge of the part to avoid witness lines flash from the cast urethane When the cut is finished the mold halves should easily separate and the master pattern can be removed Mold Preparation and Casting opray mold release onto all areas that will be exposed to the casting material and place the mold halves together Use tape rubber bands or clamped boards to hold the mold together preventing the cast urethane from leaking through the parting line Do not squeeze a soft mold too tightly as the mold cavity may flex or distort A cup or sprue is usually placed at the gate of the mold as a receptacle for pouring or injecting the casting material Preparation and dispensing of the casting materials varies Two part urethanes are typically packaged in cartridges and dispensed through a handheld pneumatic static mixer for smaller scale applications Automated meter mix dispense equipment is usually used by small production facilities The use of hand pumping static mix dispensers is no
23. Unshelled section view Figures 6c Shelled section view Unshelled molds may not bake thoroughly to remove all residual moisture Residual mold moisture after baking when contacted with molten metal can cause the unexpected release of molten metal from the mold and personal injury WARNING ZCast Design Guide 19 Appendix 6 4 Stiffening Ribs Increase the strength of your mold with the addition of stiffening ribs You can use the Make Fixture functionality in the ZPrint software or you can create a rib lattice in your CAD system of choice In either case rib thickness should be roughly one half inch 0 5 in or 13 mm in thickness Rib spacing is subjective However as a guideline distances greater than four 4 inches 102 mm should not be spanned without placing a rib in between walls or adjacent ribs NOTICE Spacing ribs more than four inches is not recommended because of possible part deformation during the molten metal process Figure 7 Addition of stiffening ribs printed in the shelled mold 6 5 Venting Perhaps the most important Metal in C concept in ZCast mold design is 7 venting The mold must be gt rk properly vented to avoid entrapping T Gasses gases in the cast part and more Ve n importantly to avoid violent release of gases through the molten metal For those familiar with traditional sand casting it will be observed that a ZCast mold even when properly vented may smoke more
24. Working Life 15 Minutes Set Time 4 hours minimum Environmental Setting Please read the Material Safety Data sheets for these products carefully This operation should be conducted in a well ventilated area with protective eyewear Instructions 1 Depowder and air dry parts for a minimum of four hours 2 Apply the resin by brush to individual parts per the material s directions and allow them to cure 3 Sand as needed and check any critical dimensions Finally use cyanoacylate resin to construct any multi part assemblies as required 4 Apply polyurethane resin 78 service zcorp com ELECTROPLATING Parts printed on the ZPrinter 310 can be easily prepared and electroplated for the look and feel of a metal part Preparation Preparation is the most important step in producing a good electroplated surface 1 Both starch and plaster based powder parts can be used as the base parts for electroplating Parts should be well infiltrated with cyanoacrylate resin or epoxy and sanded with 220 grit sandpaper Do not wax the parts 2 Spray parts with a sandable primer such as Rust Oleum Auto Primer let dry and sand again In order to create a smooth metal finish the part must be sanded as smooth as possible 3 Once sanded to satisfaction clean the part with a damp paper towel 4 To aid in the spraying process and make it easier to get a good contact when plating it is a good idea to attach wire before painting
25. Z Corporation or any other oven that will reach temperatures up to 400 F Since ZCast molds will tend to smoke when baking it is a requirement to ensure that your oven is properly vented to the atmosphere For more information about the ovens offered through Z Corp contact your local representative or go to http despatch com on the web Do not bake ZCast molds in unvented ovens Irritating and toxic fumes are formed at elevated temperatures during A WARNING oven baking Ovens must be vented to the outside Refer to the ZCast 501 powder MSDS for more information on the irritating and toxic fumes ZCast Design Guide 35 Appendix 11 Foundry Consumables You can purchase foundry consumables through a wide offering of vendors This includes items such as core wash pouring sleeves filters core paste etc Prominent foundry consumables that are commonly used are Ceramic filters These disposable items are inserted into either the pouring sleeve or they are often placed in the drag in a cavity in line with the runner channel Core paste This liquid material is a refractory that is used to seal the mold halves together The net result keeps liquid metal from reaching the outside of the mold minimizing flash Core paste can also be used to glue pieces together such as a sleeve to the mold or mold halves together Core wash Use core wash to improve surface finish and reduce gassing into the mold cavity Graphite pa
26. Z Max Epoxy Z Max epoxy is a high strength epoxy infiltration system specifically formulated for Z Corporation Z Max epoxy is alow viscosity high strength infiltration system designed to fortify both starch and plaster based parts built on all of Z Corporation s three dimensional printers Z Corp parts infiltrated with Z Max epoxy are easily sanded and are surface machinable SAFETY PRECAUTIONS e Wear lab coat gloves we recommend PVC Examination Gloves face shield or goggles Face shield is required if soraying Apply in ventilated hood e Specialized containers recommended for dispensing and application System for avoiding spills Catch pan waxed paper or plastic drop cloth Label disposal materials e Wear dust mask when sanding finished parts Please read the Material Safety Data Sheet for Z Max epoxy prior to the use of this material MixiNG INSTRUCTIONS e Mix 100 parts Z Max Resin to 37 parts Z Max Hardener by weight or 100 parts Z Max Resin to 41 parts Z Max Hardener by volume Mix the two parts thoroughly for two minutes before application The material has a working time of 35 minutes in a 425 gram mass Please be aware of the gel time while preparing quantities of material as the gel time decreases as the quantity of material increases It is recommended not to mix quantities over 425 grams GENERAL APPLICATION e Material can be brushed or sprayed e Material will penetrate between 0 079 0 28 2 7 mm
27. and close top cover 3 Place hands in depowdering unit Test air pressure of the air gun Adjust air pressure if needed 62 service zcorp com 4 Depowder your part s Press down an airgun knob to release gir UsiNG THE EXTERNAL VACUUM BAG LINER Z Corporation has developed an accessory to the vacuum cleaner to assist the user with the removal of the vacuum bag from the canister The vacuum cleaner liner is easy to use and will prevent ripping and tearing of the blue vacuum bag once it is full of powder The vacuum cleaner liner is placed in the vacuum canister prior to the bag and once the bag is full the liner handles are used to lift the bag out of the canister www zcorp users com 63 1 Start with the empty vacuum canister 2 Place the vacuum cleaner liner into the empty canister being sure the cutout in the liner goes around the vacuum inlet 3 Install the vacuum bag inside the vacuum cleaner liner 4 Fold the handles of the vacuum cleaner liner up onto the top of the empty vacuum bag service zcorp com WWW ZCOrp users com 5 Install the vacuum filter 6 Install the vacuum motor 7 Once the vacuum bag is full remove the motor and filter Remove the vacuum bag from the canister by lifting the vacuum cleaner liner handles straight up 8 Rotate the vacuum canister in the direction of the inlet from under the vacuum bag 65 9 Once the vacuum cleaner inlet tube is d
28. both components are thoroughly combined in large volumes The use of a Jiffy Mixer is recommended Mixing the components together will whip air into the mixture Air trapped in the mixture must be degassed which separates the air out of the silicone mixture Place the mixture in a vacuum chamber and degass Removing the air until a minimum of 27 Hg has been reached vacuum chambers and casting systems are commercially available for a range of budgets Note that the volume of the mixture will increase dramatically until all of the air has been removed Choose a container that holds approximately 3 times the volume of the mixed silicone Inhibition The failure of silicone to cure within the recommended cure time Surfaces of the mold will typically remain gummy uncured or stick to the master pattern Open Time The amount of time it takes to gel or double in viscosity 90 service zcorp com Once the de gassing is complete pour the silicone mixture slowly into the mold box letting it run smoothly around the pattern Take your time to decrease the chance of air being trapped anywhere Best practice is to de gas the mold after the silicone has been poured to remove any air that was introduced Manufacturers of Vacuum Chambers and Casting Systems BJB Enterprises www bjbenterprises com equipment Innovative Polymers http www innovative polymers com MCP Equipment www mcp group com Removing the Master Pattern and Creating the
29. build box slowly work your way into the build Hold the tip of vacuum nozzle approximately 0 25 6 4 mm to 375 9 5 mm away from the powder and allow the vacuum to pull the powder up Slanting the vacuum nozzle will enable you to control the suction This will decrease the chance of breaking a part that is hidden beneath the surface of the powder While fine depowdering in the depowderer always start with a low air pressure and gradually increase the pressure as the fine details and features of the part become visible When the top and sides of the part are completely depowdered tilt the part onto one of its sides Handle the part carefully The part may be fragile and brittle before infiltration If none of the sides of the part will be able to support the weight of the part you can apply a small amount of resin or epoxy to strengthen it You want to be careful not to let any of the infiltrant come into contact with any unprinted powder that may still be on the part Let the infiltrant dry before continuing to depowder Use or THE REMOVABLE BUILD PLATE The removable build plate is an excellent tool for the new user It allows you to quickly remove the part from the build bed and begin printing again The build plate also allows the user to easily transport the part to the oven at temperatures below 150 F or 66 C or the depowdering station without ever having to handle the part service zcorp com If you choose to use the removable build
30. expense CENELEC Class A Warning Note this equipment has been tested and found to comply with the limits for a Class A digital device pursuant to EN 55022 Class Adevices are for office and light industrial environments and are not generally suitable for home use WARNING This is a Class A product In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures www zcorp users com 109 MATERIAL STORAGE PRECAUTIONS Carefully read the Material Safety Data Sheets MSDS before using any Z Corporation materials Stagg A Usage Material du Store powder an pallets in a cool dry Lise of powder in ventilated area away from sources of heat environments with more moisture and incompatible materials than 30 relative humidity Keep containers tightly closed will affect powder performance Binder and Store in cool dry place away from sun Binder is NOT recyclable wash Fd Keep taht tapped Prnt head Store in cool dry place away from sun E entes Infitrants Store in cool dry place away from sun Keep tightly capped For mare information visit l the User Group Website at www zcnrp users cam 110 service zcorp com Symbols 3D Print Setup 52 Anisotropic Values 53 Saturation Values 54 A Accuracy 8 Anisotropic Scaling 53 Plaster Material System 53 Anisotropic Scaling Values ZCast Powder 53 Apollo 5005 Curing
31. for prototype parts is an ideal use for Z Corporation 3D Printers and plaster powder For more information regarding the process and the industry check out SPI s website www plasticsindustry org index htm where you can search SPI s Membership Directory amp Buyer s Guide for thermoformers In the example below the industrial designer wanted to get a feel of his design in the actual material He was able to generate a mold and produce a sample in a period of days Mold Prototype The packaging company that produced the prototypes below uses the parts to generate samples for their sales department who then use them to collect customer feedback 86 service zcorp com The instructions below are specific to molds produced on Z Corporation Printers It is assumed that the user currently owns a thermoforming system and is familiar with using molds created from other techniques for creat ing thermoformed parts The process for making molds is straightforward Good design of the molds will be the first and most important step in the process Design Considerations 1 Material Plaster 2 Thickness Capital equipment presses will vary from plant to plant The optimum thickness minimum material use minimum cost for the mold will vary as well but we recommend beginning with a minimum thickness of 1 5 38 mm 3 Printing the small size holes needed for the vacuum is unrealistic The tool designer may place guide holes
32. is arc re aim 36 Infiltration Addendum E m Em 37 Chapter 4 Preparing the 3D Printer costs iaa 38 LE il e p lt M 39 Preparing the Build ann 40 El UNS Feed BOX escritorio lk n cea tel eu iUe neki ep E 40 Removing Air from Powder and Packing the Feed BOX MAMA e e gt gt m gt m gt m m m m m gt m nmnm m mm 41 e erzin e de DUNG ATOA YY RAY Em 42 Cleaning A KAMAN YA AM A A EEE PAY ERE YE PE ennn n eneren 43 Cleaning the Se ON sitiada 44 Cleaning the Squeegees and Parking Caps eee 44 pci ge Tie gt e BOO C ER 47 Changing the Print Head ENTE 47 MIDI the Waste BOG asias iris MM A Ri ZR LE rapida AM 48 Putting the Printer Online T 48 Chapter 5 Using ZPrint Software m ann balla Bale laf lim lin 49 ella ine eli Imporing a File e A A EIE 50 og In nn 50 Part Containing an Opening or Hollow Area vecinas aaa 50 Part Containing OverhangS wcccstccccsscesccstccsedaceesteacsessseeacnacdedseiventaddesiesrastaecessesseenecdssdsedacndadauatensendsardeteoetededss 51 Checking Build A P PPP Em m 52 Setting Powder Parameters csi in a alan dail ik is on Trao era Pda sis 53 Anisotropic Scaling ValilgS sanane emar mini ee lele sizde lekeye ak nlenen ge na amet ai mez alarm 59 ez Dz e V MY e e 54 PG TRS Buld C
33. like finish www zcorp users com Zf POLYESTER RESIN Infiltration Details This application requires use of a marine grade thixotropic low viscosity polyester resin This resin is widely available at hardware stores and industrial supply centers Some common manufacturers are Evercoat Fibre Glast and or FiberLay Materials Required Polyester resin and catalyst e Plastic container for resin e Disposable brushes Many types of transportation equipment require the use of geometri cally complex ducting for heating ventilation and air conditioning HVAC of the interior space Prototype ducting produced on the Z Corporation 3D Printer can be used for form and fit testing as well as air flow testing across a range of temperatures and humidity The parts can be prepared to have sufficient toughness and resiliency to survive bench testing and functional testing in an automobile The basic parts are produced in zp15e starch powder It is recom mended to print a sample part first to practice all the process steps if you are a new user This step is worthwhile especially when deal ing with large parts because it will help to minimize waste and to increase efficiency e Fiberglass mat optional Kevlar E S glass mat e CA or equivalent glue for joining assemblies e Personal Protective Equipment Gloves Eye protection Apron Application Time Highly dependent on part 5 30 minutes Application Technique Applied by brush
34. of the master pattern by following the seven steps listed below Note that it is only necessary to follow these steps to achieve the appearance of an injected molded part with an ultra smooth finish Instructions 1 Remove post process and infiltrate the printed part from the Z Corporation 3D Printer Infiltration with cyanoacrylate or epoxy is recommended The use of wax is not recommended because the part will not accept a primer later in the finishing process and is not easily sanded 2 Sand the part with 100 grit sand paper after it has been infiltrated with either epoxy or cyanoacrylate Sand the part so there are no pits in the surface 3 Coatthe part with a filler such as Bondo No 907 Glazing amp Spot Putty being sure to fill in any remaining pits You can also use a fast curing spackling putty Both putties are applied wet and dry quickly at ambient temperatures 4 Sand the filler with 220 grit sand paper The finish at this point should be completely smooth with no surface defects 5 Prime the part with a sprayable sandable primer Z Corporation recommends Plasti kote Sandable Primer for parts infiltrated with cyanoacrlylate and Dupont Corlar Epoxy Primer for parts infiltrated with epoxy Apply 2 3 thin coats 6 Allow the part to dry Wet sand the pattern with 400 grit sand paper Wet sanding the part re wets the primer making it extremely smooth and fills in any remaining pits 7 Dry sand the pattern wit
35. overhangs that are difficult to manually handle without breaking should be left on the fixture Remove as much powder as possible from the top and side surfaces while the part is on the fixture Lightly infiltrate the exposed top surfaces of the part with Z Snap or Z Max epoxy DO NOT apply too much infiltrant to prevent the infiltrant from wicking through to the bottom side of the part Cure the part for one hour at 165 F 74 C Do not place on the build plate For more information please contact one of our applications engineers at applications zcorp com www zcorp users com 37 38 CHAPTER 4 PREPARING THE THIS CHAPTER IS A STEP BY STEP GUIDE ON PREPARING THE 3D PRINTER FOR PRINTING IT COVERS PREPARING THE BUILD AREA CLEANING THE SERVICE STATION FILLING THE BINDER BOTTLE AND REMOVING THE WASTE BOTTLE FOR ADDITIONAL ASSISTANCE AND INFORMA TION PLEASE CONTACT THE Z CORPORATION SERVICE DEPARTMENT AT 781 852 5050 TOLL FREE AT 877 88 ZCORP OR VIA EMAIL AT SERVICE ZCORP COM YOU MAY ALSO VISIT THE Z Corp USER GROUP WEBSITE AT WWW ZCORP USERS COM 3D PRINTER service zcorp com TURNING THE PRINTER ON If the Printer is off you will need to turn it on in order to prepare the printer We recommend that you leave the printer on at all times The Printer periodically exercises the print head for optimal operation 1 Check the voltage switch located on the back of the printer to make sure it is configured for the cor
36. part The thinner the wall thickness the higher the core saturation the thicker the wall thickness the lower the core saturation The ZPrint Software will recommend shell and core saturation values based on the part geometry If parts come out weak increase the saturation values by 1096 if parts are difficult to depowder decrease the saturation values by 109 3 ZCast Material System The shell and core saturation values for the ZCast material system are generally constant values meaning that there is only one value for all geometry types PRINTING THE BUILD It is strongly recommended that the build settings be confirmed before printing To check build settings choose 3D Print Setup under the File menu or click on the icon located on the taskbar Printing tank 2000 E on Al EXE After all build settings have been confirmed 1 Choose 3D Print under the File menu 2 A dialog box will appear asking that powder and fluid levels to be checked 3 Press OK to confirm that these have been checked to begin the build Once the build has begun a dialog box will appear reporting the status of the build 04 service zcorp com CHAPTER 6 POST PROCESSING THIS CHAPTER WILL EXPLAIN HOW TO REMOVE A PART FROM THE ZPRINTER 310 REMOVE EXCESS POWDER BY DEPOWDERING AND INTRODUCE THE USE OF INFILTRATION MATERIALS FOR INFORMATION AND GUIDANCE ON INFILTRATION MATERIALS PLEASE CONTACT THE Z CORPORATION SERV
37. plate keep in mind that you want to orient the parts so that the part does not collapse when powder flows out from the sides of the part after the removable build plate is lifted from the build bed Oven Dry THE PART Although the part can be handled when it is not completely dried the part reaches full strength when dried Placing the part in an oven at temperatures less than 200 F 93 C for 2 4 hours will dramatically increase the strength of the part This is only recommended for plaster based powders If using the removable build plate remove the part from the removable build plate before placing in the oven PART INFILTRATION WHEN Usina Z Bonp RESIN Always infiltrate the most delicate features of the part first Z Bond resin gives almost immediate strength to the area of the part that has been infiltrated As you handle the areas of the part that have been infiltrated it will be less likely to break it Try to avoid infiltrating the part by applying Z Bond resin from spot to spot Pick a good starting place and hold that area upward relative to the rest of the part With your free hand place the tip of the Z Bond bottle against the part and allow the cyanoacrylate CA to flow from the bottle It is important that the CA flows at a uniform rate making it easier for you the judge how quickly it will flow from the tip of the bottle before it wicks into the part By seeing how quickly it wicks into the part you will be able to judge w
38. proper mold ventilation during molten metal casting leading to the unexpected release of entrapped gases and molten metal causing personal injury A WARNING Design vents to avoid gas entrapment in thin mold geometries Ensure venting paths in the mold are arranged and directed away from the metal path to avoid entrapment of gases ZCast Design Guide 24 Appendix Creating a runner bar for example across the heat sink fins would help to facilitate proper filling however mold vents must still be provided for adequate exhausting of any gas Runner Bar 6 6 Parting Lines The process for creating a mold in CAD software typically involves taking an object the casting and subtracting it from a larger encompassing object the mold The mold must then be split along a generated surface or a plane Traditionally the parting line is very carefully chosen to create a pair of patterns to form the cope and drag without undercuts and minimize the number of cores necessary Since ZCast molds are printed using the 3D printing process the choice of a parting line becomes a much less demanding chore The parting line can theoretically cut through any portion of the mold cavity without regard for undercuts Below is a list of the few things to consider when choosing a parting line e Avoid thin edges thin edges can break easily during either handling or pouring e Keep cores intact splitting cores will leave flash where the part
39. representative for a copy These documents as well as other instructions will accompany the mold The goal of this exercise is to make your foundry comfortable with the ZCast process You would like them to be as well informed about the materials and the process as you are If you have trouble finding a foundry in your area contact your Z Corp sales representative to help you locate an experienced foundry ZCast Design Guide 12 Appendix 5 Designing with ZCast Mold Design ZCast powder offers flexibility and simplicity in mold design Because of its simplicity the engineer or designer can spend more time focusing on the design of the part rather than on the design of the mold This simplicity does away with undercuts and draft which are critical when using other methods ZCast s unprecedented flexibility allows the designer to choose the technique that is the most proper for the application at hand metal and personal injury during the metal casting steps Improper design of molds can result in the release of molten A CAUTION Only trained or supervised individuals should design molds 5 1 Sources of Mold Design Information The subtleties of casting design are beyond the scope of this document The designer may wish to gain as much information as possible on designing sand molds before attempting to use the ZCast process The more knowledge one possesses about good mold design the more successful you will be at designin
40. risers This allows for a simple compact design which can easily be printed 6 2 Mold Parts Larger Than Build Volume It is quite possible that your mold will exceed the size of the build volume of your Z Corp Printer Multiple sections of the mold can be printed and assembled separately Use core paste between the shell seams to bridge the shell section together Clamp the mold halves together with dowel pins for alignment Do not cast molten metal in molds with multiple sections A WARNING without using core paste or adhesive Molten metal can leak from the mold and cause personal injury 6 3 Shelling your Mold As will be discussed in the Mold Preparation section baking is a requirement for all ZCast molds To ensure thorough baking throughout the entire mold hollow out the backside of your mold for better performance Take the following example Figure 6a illustrates a mold cavity surrounded by a solid mass of ZCast material Figure 6b shows the same mold with a section passing through it for clarity With a thick section of ZCast powder it becomes difficult for the heat to penetrate the depths at uniform levels Figure 6c illustrates the same mold with a section view This is the optimal situation With uniformity to the walls throughout it is easier for the heat to thoroughly disperse throughout the mold Mold Cavity Shelled exterior of Mold Section View of Mold Figures 6a Unshelled solid Figures 6b
41. several aspects to consider for the novice mold maker when choosing a mold material The foremost aspect should be whether to use a silicone with a tin or platinum based catalyst A catalyst is a substance that initiates or accelerates a reaction Tin catalysts work extremely well for the beginner because they generally have a low durometer cure at room temperature and are virtually inhibition free Low durometer materials make it easy to create a parting line and remove the master without damaging it Inhibitors can be powder from gloves rubbers plastics or chemicals not cleaned from the surface of the master pattern Platinum catalysts have a cure cycle that can be accelerated with heat and have virtually no shrinkage however they have a higher durometer Patterns used to create molds with higher durometers may need draft and must have an excellent surface finish to de mold cast parts It is also recommended that the novice mold maker use a translucent mold material so the pattern is visible within the mold making it easier to direct where the parting line is located Manufacturers of Molding Silicone Hapco www hapcoweb com Dow Corning www dowcorning com General Electric www gesilicones com Innovative Polymers www innovative polymers com US Composites www shopmaninc com moldmaking html Ebalta www ebalta de Building the Mold Box The purpose of a mold box is to contain the silicone rubber after it is poured over and
42. the parts Wire can be attached to any non visible surface with cyanoacrylate resin 5 After the wire is securely attached spray the entire part including the wire with a conductive paint There are a variety of conductive paints on the market such as Agri Systems Non Stick Graphite Paint as well as Dalmar Easyplate Copper Conductive Paint 6 The conductive coating is critical to good plating Spray all parts well and evenly Do not leave any surface uncoated Be especially careful of where the part is held while you spray it Do a second coating to cover these spots Plating While any electroplating shop should be able to plate the parts at this point itis a good idea to find a shop that has experience with plating nonconductors when possible During the plating process the first bath will be a copper strike This bath will use a relatively low current The paint you use may come with directions for the current and voltage that should be used for this coating If not a good guideline is to start at 1 to 2 amps square foot and increase that amount as the part starts to plate Once this first layer has been plated the following coats can be plated as normal If the surface is not leveling it can be sanded in between baths to help get a shiny finish Contacts If you would like to have a part plated we recommend contacting Jason Channell at Associated Electroplaters Inc Phone Number 248 547 5520 www zcorp users com 79
43. will produce maximum infiltration depth MixiNG INSTRUCTIONS e naclean plastic non porous container mix Z Snap Resin to Hardener in a 2 1 ratio by volume 100 47 by weight Mix the two parts thoroughly for 2 minutes stirring in a figure eight pattern being sure to scrape the sides and bottom of the container e The material has a working time of 85 minutes in a 450 gram mass at room temperature Mix only what you need Please be aware that the mixed solution will increase to a maximum temperature of 122 F 50 C after 40 minutes PLEASE NOTE The gel time decreases when preparing quantities of material greater than 450 grams CURING INFORMATION e nfiltrated parts should be pre cured at ambient temperature for 30 minutes e Cure the infiltrated part for 30 minutes at 120 F 50 C then 2 hours at 165 F 74 C on a non stick wax paper Teflon polyethylene etc material or it will adhere to the surface it is sitting on while curing PLEASE NOTE Z Snap epoxy should not be cured at temperatures greater than 165 F 74 C and longer than 3 hours because flexibility may decrease making the parts more brittle CLEAN UP e Any remaining mixed infiltrant beyond the working time should be kept in a well ventilated area to avoid fumes Clean up of the spraying apparatus is simple with solvents found at a local hardware store such as acetone or denatured alcohol For more information on the uses of Z Snap epoxy please refer to the
44. 4 Divide the mold components into sections suitable enough to print in your Z Corp 3D Printer Typically Shell method only Inadequate venting in the mold or core can lead to the unexpected release of entrapped gases and molten metal A WARNING causing personal injury during metal casting Venting paths in the mold must be arranged and directed away from the metal path to avoid entrapment of gases 5 3 2 Shell Method If you plan to use the Shell method you will need to Begin with steps one through five from the Direct Pour method Divide out the core geometry if a core or cores exist in your design and add core prints Isolate the casting surfaces of your part to be cast and divide it into desired number of sections Shell each of the resulting open surface sections Design gating system on a separate conventional pattern Incorporate alignment features into shell and patterns Incorporate locking features so that shells are firmly held into place by foundry sand ou Ius ee a ZCast Design Guide 17 5 3 3 Combination Method The combination method is slightly more process oriented and is not represented in the context of this document Users familiar with the conventional sand casting process that incorporates the use of a pattern will find this technique to be desirable using ZCast The primary advantage of the Combination method is that a significant number of components can be manufactured using this technique A t
45. 4 ZPrint Software 3D Print Setup 52 Build Settings 52 Collision Detection 53 Import 50 Open 50 Printing 54 Slice Viewing 53 ZPrinter 310 Back Panel 11 Components 9 ZD4i Depowdering Station 9 Gantry 12 Online 48 Service Station 13 Subcomponents 10 Back Panel 11 Control Panel 13 Service Station 13 Appendix ZCast 501 Direct Metal Castinq DESIGN GUIDE September 2004 ZCORPORATICOM ZCAST 09521 ZCast Design Guide Rev E Appendix Table of Contents HERO CIC TO gi RE MR AN O GUN A EEE 4 2 General SAICLY RTT 5 x ately i e RETE iia 5 D2 SAS OY MIMO ONS scum a bid a E Des mau ea e e ted 5 Z3 SAG gd eg T t T 6 o LOST AV Ma SSH Exe M doute conu alia a 10 Sal ImeMatenal Semin sleep adea hint sinide dila dabi ai aatis tas eia fA Poeta dra brio ded aed eai rs dades 10 3 2 DES RE do Misal el alal m 10 4 JEocd ndg a FOUNO Yeme dada bae fd i 12 4 Foundiy Hall ANS Esasen ale iia azli kai em l e am la ariel 12 5 Designing with ZCast Mold Design 13 5 1 OoSourcesofMoldDesigninformation A A AMAMMAA A gt gt gt gt nnne 13 5 2 Selecting a Design Method eise akan essen anne ansa nain amala 14 5 2 1 Direct eos p PT 14 522 A N 14 o2 COMBINATION Melodi slam lele ei eek o 15 5 3 Designing Molds in your CAD System 16 5 3 1 Direc PourMethod
46. ARTMENT AT 781 852 5050 TOLL FREE AT 877 88 ZCORP OR VIA EMAIL AT SERVICE ZCORP COM CHANGING PniNT HEADS The print head will need to be changed when the print becomes uneven A print head should be able to print at least 1 2 liters of binder about 30 Billion pixels equivalent to about 2500 cubic centimeters of parts Print head life can depend upon the geometry of the parts printed so some print heads may last longer Signs of a worn print head are weak parts rough surface finish or visibly uneven printing in the build The software will display a warning when the print head will be exceeding the expected print head life during the build To ensure that the build will be completed and good print quality replace the print heads Z Corp part number 13524 as follows EL ELSE EUs E Technical Tip Mere dE 5 If you fill the binder tank when you change the print oe head you will not have to fill it again until you o d change the print head again Check Powder Level Change Print Head Flush Binder A 1 Select the Change Print Head option under Mas tt AN the Service menu i the ZPrint Eomae Then Stripe Test press Start to begin the print head change process Upload New Firmware Upload New Printer Configuration 2 Wait for carriage to stop moving then lift the top cover of the printer 3 Lift the carriage cover to expose the print head Slide the latch back to disengage and open the cover
47. ICE DEPARTMENT AT 781 852 5050 TOLL FREE AT 877 88 ZCORP OR VIA EMAIL AT SERVICE ZCORP COM REMOVING THE PRINTED PART 1 With starch based parts wait approximately ten to fifteen minutes to ensure that the uppermost layers of the part have had a chance to dry With plaster based parts leave the part in the bed for approximately 30 60 minutes 2 Take the machine offline by pressing the online button 3 Lift the top cover 4 Vacuum off any remaining powder on the deck 5 Press the Feed Down button to lower the feed piston 6 Place a tray on the top of the feed area 7 Take a moment to look at the computer screen and determine exactly where parts lie in the build box 3D View in the ZPrint Software makes this easy to perform 8 Without raising the build piston begin vacuuming powder out of the build box Hold the end of the hose on a 20 to 30 degree angle over the powder so the hose inlet is 1 4 to 3 8 above the surface of the powder This generates enough of a draft to lift loose powder without damaging the parts 9 Vacuum powder away from the buried parts and clean powder out of the margins against the walls of the build box 10 To gain access to the sides of the parts raise the build piston by holding the Build Up button 11 Remove the part or build plate and place on the tray The part is now ready to be depowdered WARNING When performing any vacuuming o
48. INTER 310 SUBCOMPONENTS 10 Binder Bottle on the Top Cover Feed Piston Build Piston Control Panel Overflow Bin Waste Bottle ZPrinter 310 System service zcorp com Voltage Switch Keyboard Connector www zcorp users com Bottom View of Electronics Box Mouse Connector not used Ethernet Connection Back Panel View Power Switch E on side Video Connector Serial Connector 11 12 9 Squeegee Y Scraper Carriage Latch Carriage Plunger Oil Filler Holes Carriage Assembly Front Snowplow Gantry Top View service zcorp com Parking Cap ry Squeegees Service Station Top View Spread This button allows you to move the gantry from left to right and allows you to spread powder over the build box Holding down this button will result in continuous spreading of powder PRIN TE R ex 0 CD spread Online Offline Enables and disables printer communication Control Panel WWW ZCOrp users com Wash Fluid Reservoir Feed Up Feed Down Allows the user to raise or lower the piston in the feed box A light tap raises or lowers a small distance holding down causes continuous motion Build Up Build Down Allows the user to raise or lower the build box A light tap raises or lowers a smal
49. PORATION 3D PRINTER THROUGH THE IMPLEMENTATION OF ADVANCED PART PROCESSING TECHNIQUES PLEASE VISIT THE User GROUP WEBSITE AT WWW ZCORP USERS COM FOR MORE INFORMATION IF YOU HAVE AN APPLICATION YOU WISH TO SHARE OR HAVE QUESTIONS REGARDING ANY OF THESE APPLICATIONS PLEASE CONTACT THE Z CORPORATION APPLICATIONS TEAM AT APPLICATIONS ZCORP COM 74 service zcorp com suid xj POO ag nba SL ro gap E a Y i E Gi i gt q ng t d ulta jo u y i Ti A i mede M SUAZLNIYd EE NOIIVUOd3J02Z MNESISA eziumew m Py a a U O yu gt O ad 19 www zcorp users com GLUING MULTI PIECE PARTS Instructions 1 Remove depowder and dry parts out of printer as described in Chapter 6 Post Processing the Part 2 Sand seams prior to gluing and check fit of any assemblies Sanding small parts or parts with curved surfaces can be made easier with a small air powered glass air etching sanding kit 3 Glue seams use of clamps can assist in the bonding process 4 Sandthe seams after they have cured to blend and smooth the edges You may also fill the seams with loose powder 5 Priming filling and sanding before painting are critical steps in the process Achieving the best results sometimes requires application of two coats of primer A wide variety of paints and primers have been successfully used for hi quality finishes SEM products www semproducts com Bon
50. ZPrint 6 3 User Manual Wait for removal Job Mame b zhd FrintTime 1 Minutes 8 Seconds Finished Monday April 12 2004 at 11 58 AM This part used 0 million pixels af binder Je minutes has passed since the job was finished Y ou can remove your part in 8 minutes G knil 13 When the part is ready to remove the software will open up a dialog box informing you that the part is ready to remove This dialog box contains links to helpful video clips about how to remove depowder and infiltrate the part Remove and post process the part as instructed in the video or in the user manual 22 service zcorp com Post PROCESSING 1 Remove excess powder from the part and remove it from the build box 2 Depowder the part in the depowdering station 3 Strengthen the part with the infiltration of your choice See Chapter 6 Post Processing www zcorp users com 23 SEFUL TIPS PART SETUP AND PosT PROCESSING 24 Part Setup ORIENTATION AND PRINT SETTINGS Do not tightly pack parts into the build Keep in mind that you will need to depowder and remove them from the build box Allow a little room around the part so you can vacuum the powder away and get your fingers around or under it Orient parts so delicate features are supported in the z axis i e keep the attaching feature directly below the fragile features If a delicate feature is only supported by unprinted powder the chances of breaking that small
51. a tight fine structure The result is a sound casting with a uniform distribution of the alloying elements Chills can be used in ZCast molds in much the same way they are used in traditional sand casting While they can be complicated externally cooled components they are often as simple as steel or iron blocks which can be inserted into cavities designed or cut into a ZCast mold 6 13 Printing For general printing techniques you should refer to the User Manual for your 3D Printer and the ZPrint System Software Manual e When choosing your powder type in 3D Print Setup simply select ZCast 501 from the powder list it will show up on the list for any printer that is capable to use the powder system with the proper upgrade The proper settings for saturation layer thickness and scaling factors are already set for you e Using Bleed Compensation is recommended This will improve the accuracy so parts will fit together better e Orient parts so that the most critical faces are facing up in the build For example when possible put the outside of the mold components non molding surfaces facing down in the build Under certain conditions a slight arching effect can occur on the bottom surfaces in the build e When cores are being printed you may choose to build a fixture underneath it This will improve the accuracy for critical fit items Refer to the ZPrint Manual for instructions on using fixtures 3 See Table 1
52. al CAUTION injury Always use core paste or adhesive for attachments Additional clamps or securing wires may also be needed gt PP PP DP ZCast Design Guide 8 FINISHING A A CAUTION CAUTION Appendix Breaking molds with a hammer or high pressure water jet releases airborne objects and may cause personal injury Wear eye face and hand protection while breaking molds Drill cutting or grinding cast parts releases airborne objects and dusts and may cause personal injury Wear eye and face protection while performing these tasks ZCast Design Guide 9 Appendix 3 ZCast Advantages Today metal casting molds are commonly created by first producing a machined pattern or pattern set that is then used to create the molds Instead of utilizing this costly and often time consuming process the ZCast process utilizes 3D printing to create the molds and mold inserts directly from CAD data With the ZCast process Z Corp provides the option to skip the pattern or tooling step significantly reducing the time required to obtain metal castings while also reducing the cost The production of prototype castings using conventional methods can often take several weeks and be prohibitively expensive These constraints limit the number or preclude the production of metal prototypes during the development process Specific time and cost savings will depend on the size and complexity of the desired part but can also be subs
53. al filters They will often run out to a dead end beyond the last ingate It is in this dead end that dirt debris and dross collect while good clean metal enters the mold ZCast Design Guide 38 11 1 8 Ingates The metal enters the mold cavity through the ingates Ingates typically feed thicker sections of the casting which subsequently feed thinner sections Thick sections where the metal will be slowest to cool should be allowed to feed thin sections that cool more quickly and may freeze off before the entire casting is filled Sometimes it is difficult to design a mold this way and for this reason among others rsers are sometimes placed between the runner and the ingate 11 1 9 Risers A riser helps to feed the casting before the whole thing solidifies but it also helps to minimize the shrinkage in the casting by serving as a reservoir of molten metal which can continue to feed the casting as it begins to shrink The riser is typically cylindrical and MUST stand as tall as the pouring cup Failure to do so wil result in a significant loss of material as the level in the pouring cup reaches equilibrium with the level at the risers Aluminum alloys require extensive use of risers Often more than one half of the casting mass is in the risers For more on riser design see Basic Principles of Gating and Hisering AFS Cast Metals Institute Appendix Figure 20 Runners lead out from the well Ingates con
54. all mating surfaces The offset can be created on either side of the parting surface or split between them Even with an intentional gap there will likely be some portion of the mold or core that rubs against another part when the mold is assembled When one ZCast object rubs against another ZCast object they essentially sand each other down leaving a little bit of loose sand Since this is bound to happen you should prepare for this by leaving room between cores and core prints and where possible at junctions on the parting line taking care not to extend this gap into the path of metal Add a small Figure 11 Tapered core and core print l Core has radiused bottom edge Add ZCast Design Guide 26 offset between mating surfaces Appendix radius to the bottom edges of core prints where they sit in the cope or drag this provides space for loose powder to collect safely away from metal flow A foundry will typically seal parting surfaces with core paste A bead of this material is placed around the outer edges of the mating surfaces of the mold and across the core prints to prevent leakage 6 9 Geometry Guidelines For the majority of metals that can be poured in ZCast 501 molds the following are the geometric limitations Minimum core size 0 14 to 0 16 in 3 5 to 4 0 mm some distortion will occur if small cores project across large distances Minimum cast feature size positive feature 0 12 in 3 0 mm thinne
55. ambient temperature prior to placing in the oven for accelerated cure to avoid discoloration due to exothermic reaction The part should be placed on a non stick wax paper Teflon etc material or it will adhere to the surface it is sitting on while curing Wear gloves when handling the parts when they are still at an elevated temperature Parts will attain full strength and be safe to handle once they cool to room temperature The resin will cure at room temperature after 24 hours PAINTING PARTS 70 e Parts can be painted to enhance surface finish and appearance Z Corp recommends coating all surfaces with Dupont Fill N Sand Acrylic Primer Surfacer 131S a lacquer based primer ideal for improving the adhesion of most paints This material can be purchased at most auto body supply stores service zcorp com Usina ZBonp CYANOACRYLATE Z Bond cyanoacrylate is an extremely fast setting low viscosity general purpose infiltration resin This resin is designed to rapidly strengthen parts Z Bond is a one part user friendly no odor non blooming resin that may eliminate the need for special ventilation This resin is easily sanded and enhances the vibrancy of color parts Z Bond 10 which can be used with starch models is available in 0 5 Ib bottles and Z Bond 100 which can be used with plaster models is available in 3 5 ounce bottles and 24 ounce spray bottles SAFETY PRECAUTIONS e Do not use or handle this product unti
56. and polished regardless of the method of their production This makes parts printed using Z Corporation technology a perfect fit due to the ease in which their surface finish can be enhanced Process Overview gt Printed Part mol Box Pour Silicone Make Parting Line Setup 3 e Mold with Cavity Pour Urethane Cast Part Draft Angle A slight taper to the shape of a cast part to allow it to be easily removed from its mold Draft angles should be used on interior or exterior part walls in the direction of draw A minimum 1 draft angle per side is recommended for parts having no textured surfaces Textured surfaces need additional draft to easily release the part and eliminate drag marks or scuffing of the part surface Parting Line Line in which two halves of a mold will separate Parting lines should be located to provide good part appearance and function Undercut A protuberance or indentation that impedes withdrawal from a two piece rigid mold Durometer The hardness of a material RTV molds typically use a material with a Shore A hardness 50 88 service zcorp com Master Pattern Production Preparation of the master is the key to successful mold making and part casting Every detail of the master s surface finish will translate to the cast pieces The polished appearance of an injected molded part is often the goal when prototyping with RTV molding To achieve the polished appearance prepare the surface finish
57. around a master pattern until the silicone turns to a solid A mold box does not have to be a complex structure depending on the size and configuration of your part often a can small plywood box pan or plastic bucket will get the job done For ease and convenience plywood Plexi glass plastic or sheet metal work extremely well Be sure not to use a material that will inhibit the curing of the silicone Consult your silicone vendor for a list of these substrates The box must have four sides all of which must stand higher than the master pattern when mounted to the gate The box can be screwed or nailed together but clamps are used in most cases for easy disassembly of the mold box All seams of the mold box must be sealed to ensure the liquid silicone does not leak Hot melt glue silicone caulk or clay are effective choices again be sure the material chosen will not inhibit the cure of the silicone Preparing and Pouring the Silicone Mold Preparing the silicone is relatively easy but must be performed properly to ensure a good mold Pay close attention to the mix ratio of the two components of the silicones Be sure to prepare a large enough volume to completely encase the pattern The open time of RTV silicone is typically 1 2 hours see your product s Technical Data Sheet for specific information allowing enough time to carefully mix and prepare the liquid rubber Though mixing can be done by hand it is difficult to determine if
58. art in the build The settings may be found under the Preferences menu under the Edit menu For more information see Section 1 4 7 EZ Print Mode Preferences in the ZPrint 6 3 User Manual PLEASE NOTE EZ Print mode is only available to ZPrinter 310 customers using the zb56 zp102 material combination EZ Print will print the part using the default settings for this material set It also allows you to easily print a single part You will also need to update your firmware to version Zephfw10 138 242 or higher 1 Upgrade the ZPrinter 310 System firmware to version Service Zephfw10 138 242 or higher Check your firmware version by se Check Status F1 lecting the Check Status option under the Service menu If the service Print Head F3 firmware version is below Zephfw10_138 z42 please upgrade by Toggle Roller on off F4 continuing with step 2 Check Powder Level Change Print Head 2 To upgrade your firmware launch the software and select Cancel on the open dialog box Select the Upload New Firmware option under the Service menu Select Zephfw10 138 242 or higher on Stripe Test your software CD The printer will reboot upon completing the up grade You may now proceed with using EZ Print Report Capabilities Upload New Firmware Upload New Printer Configuration Tn ES Lookin Go monocromo ee 3 Upon launching the software or choosing the Open option under the File menu the Open dia lo
59. ast 501 material for the mold sections and cores ZCast Design Guide 6 Appendix Inadequate venting in the mold or core can lead to the unexpected release of entrapped gases and molten metal WARNING Causing personal injury during metal casting Venting paths in the mold must be arranged and directed away from the metal path to avoid entrapment of gases Do not cast molten metal in molds with multiple sections WARNING Without using core paste or adhesive Molten metal can leak from the mold and cause personal injury Unshelled molds may not bake thoroughly to remove all residual moisture Residual mold moisture after baking WARNING When contacted with molten metal can cause the unexpected release of molten metal from the mold and personal injury Insufficient venting of thick mold sections can result in the unexpected release of molten metal and personal injury WARNING during metal casting Design molds with adequate venting capacity and proper location Vents not located in the core vents too close to parting lines or vents that break through to the casting surface may CAUTION O leak molten metal and cause personal injury Locate vents in the core away from the casting surface and as far as possible from parting lines Mold wall thicknesses of less than 0 5 inches 13 mm may allow molten metal to leak from the mold unexpectedly and CAUTION cause personal injury Design molds to ensure at least 0 5 inche
60. ated in the set up of the mold to increase air flow during burn out of the casting pattern 2 Patterns should be infiltrated with either wax or resin Wax infiltration is an excellent treatment for investment casting patterns Wax infiltrated parts will behave similarly to common wax patterns when they expand The ZW4 or ZW3 Waxer and hand application methods have both been successfully used on Z Corporation parts Some users briefly blast their parts with a consumer hairdryer or heat gun to quickly heat and re cool the wax to improve surface finish Patterns can also be infiltrated with resin for increased strength Surfaces should be sanded to their desired finish after this step Then coat with wax Casting 1 Z Corporation patterns can be assembled on standard wax gates and runner systems They should be coated with the normal 6 8 shell layers of slurry www zcorp users com 83 2 When using wax patterns assembled on wax runners the tree assembly should go though an autoclave process for 10 minutes before being put in the firing oven The autoclave should be 380 F 193 C and 130 psi 9 bars The pattern should then be put in the burnout oven Note this process has been omitted by some users to their satisfaction Patterns infiltrated with resin should skip the autoclave process and go directly to the burnout oven 3 Z Corp patterns should be burned out at 1750 1800 F 954 982 C in an oxygen rich environment Burnout time will
61. ck underneath the roller bearing 14 Lift the printer assembly The roller scraper should drop from the printer assembly service zcorp com WWW ZCOrp users com 15 Replace the printer module onto the printer 16 Tighten the mounting screws on both sides of the motor assembly 17 Replace the snowplows in the front and back of the printer module 18 Reconnect the fluid line ribbon cable and head card power cable 31 19 Replace the cable enclosure and tighten up the both screws on top of the enclosure 20 Using the syringe provided in the user toolkit place the needle into the septum and slowly draw binder through the fluid system until no bubbles are present in the binder tube LOADING ZCAST POWDER 1 Remove any non ZCast powder from the feed piston build piston and overflow bucket 2 Fill the piston completely with ZCast 501 powder being sure to keep the casting powder fluffy Use the tamper to level off the top of the feed piston but do not compress the powder 3 Spread over the build bed and print Packing the casting powder into the feed piston increases the density of the powder at the feed piston plate and increases the gripping force that ZCast 501 powder has on the sidewalls of the feed piston DO NOT pack the casting powder SETTING UP ZCast BuiLDs Follow best practices for setting up a build in Z Corporation 3D Printers found in the ZPrint Software User Manual Take into consi
62. com 6 Refill the reservoir using the wash fluid supplied in the toolbox One bottle will fill up the reservoir Remember to reorder zc10 wash fluid 7 Close the top cover of the printer 8 Put printer online Press OK to re park th lage SENS De ene aa 9 Press OK on the ZPrint Software to re park the gantry www zcorp users com 101 GREASING THE SLow Axis The slow axis will need to be greased occasionally to prevent slow axis errors The ZPrint Software will alert you when it is time to grease the slow axis if the maintenance reminder feature is enabled If this is the first time greasing the slow axis assemble the grease gun Follow the instructions on the packag ing 1 Remove the back cover of the printer by removing Seven screws 2 Locate the two grease fittings 3 Snap the grease coupler onto the fittings 4 Add grease until it begins to come out the side of the bearing typically two pulls of the trigger 2 o c o U o pum O 5 Replace the back cover of the printer Bearin gt 6 Store grease gun for future use 102 service zcorp com GREASING THE PISTON SCREWS www zcorp users com The ZPrint Software will alert you when the build and feed pistons need to be greased if the maintenance reminder feature is enabled More information on this feature can be found in the ZPrint Software Manual 1 Lower both the feed and build pistons all the way down
63. cup sprue and well It is typically a conical shape tapering in as it extends The well is typically where the filter through the cope and into the drag The sprue with the would be placed pouring cup at its top should be the tallest component of the mold The height is what produces the pressure needed to fill the mold with metal The sprue should be at least 4 in 102 mm higher than the casting The base of the sprue is often used as a choke to control the flow rate of metal into the mold The diameter of this point can be derived from the geometry of the casting and the subsequent gating design 11 1 6 Well Just beyond the choke at the bottom of the sprue the metal path opens up to the well The well is typically a cylindrical opening with a diameter about 2 5 times bigger then the choke It directs the metal to the runner system The well often serves the dual purpose of housing a filter Filters are usually ceramic webs or open cell sponges used to help remove some of the dross metal oxides and dirt from the molten metal 11 1 7 Runners Runners are the paths that feed metal around the mold to regions farthest from the pouring cup Runners are usually designed to minimize the turbulence of the metal as it travels through them Typically they are rectangular in cross section and again like many other components of the gating system the runner dimensions can be determined from the cast part s geometry Runners also serve as addition
64. d casting like molds and or cores with your Z Corp printer Once printed depowdered and baked you have the ability to immediately pour molten metal yielding a cast metal part Arguably the ZCast process is the fastest and most direct way to obtain a metal part from digital data ZCast 501 has been optimized for non ferrous materials ranging from zinc to brass including aluminum and magnesium WARNING NEVER pour magnesium without first contacting a Z Corporation technical representative NEVER ATTEMPT TO POUR FERROUS METALS IN ZCAST 500 MOLDS You will find a detailed document entitled ZCast Direct Metal Casting Design Guide located in the appendix of this manual for additional information Please review the guide along with safety issues before continuing with this product Upon review contact Z Corporation Applications Team for information about a free online training session by sending an email entitled ZCAST ONLINE TRAINING SEMINAR to applications zcorp com Be sure to include preferred meeting times The session is approximately one hour UsiNG ZCast On YOUR ZPRINTER 310 PRINTER Temporary Scraper Blade Removal When using ZCast powder on the ZPrinter 310 Printer the scraper blade should be removed Failure to remove the scraper blade when running ZCast powder will result in excessive wear on the scraper blade and require replacement The entire activity should take less than ten minutes and requires two hex wrenches Remembe
65. depend on the part volume and air circulation If the part is an inch thick or less it should burn out completely in two hours For larger parts a longer burnout time should be expected The patterns will burn out completely if they are left in the oven for a sufficient amount of time Low temperature furnaces with air treatment devices using ionized air have also been utilized successfully to burn out Z Corp patterns Refer to the furnace manufacturer for guidelines for this process 4 After burn out allow the shell to return to room temperature In some cases a small amount of residual ash may remain less than 196 This can typically be washed or blown out of the mold Wash the shell out with water Allow the shell to dry and thoroughly pre heat shell before pouring metal to entirely eliminate any water vapor that may remain Results 2 shrinkage should be expected when going from the Z Corp pattern to a cast part The surface finish will depend on the surface of the original pattern but can be expected to be around 3 5 mils 84 service zcorp com FLEXIBLE PARTS Material Por A Mold 2030 Preparation e Read and understand the Material Safety Data Sheet as well as any directions e zp15e parts should be used e Be sure the parts are completely dry Wear impervious rubber gloves glasses and a lab coat e Use adequate ventilation when mixing and applying the material Instructions 1 Material should be mixed well at an
66. deration part orientation verses strength tradeoffs and use fixtures when applicable to control the reduced effects of squash For more information please refer to the ZCast Direct Metal Casting Design Guide Post PROCESSING Unlike other Z Corp parts ZCast parts require no infiltration However ZCast molds must be thoroughly baked in a vented oven at sufficient temperatures to burn out organic materials Additionally the user may apply a core wash solution to improve the surface finish of the casting See the ZCast Direct Metal Casting Design Guide for bake temperatures times and additional information WARNING If using a build plate remove the part from the build plate before placing in the oven Failure to do so will damage the build plate 32 service zcorp com MATERIAL ORDERING You can order ZCast consumables either directly from Z Corporation or through your local reseller The item list for ZCast powder is as follows Part Description Denominations 06091 ZCast 501 powder 15 kg pail 500 in 06376 ZCast 501 powder 60kg drum 2 000 in 06312 zb56 clear binder 1 gallon RECYCLING Similar to plaster and starch ZCast can be recycled Recycle only powder that is unprinted and free of moisture as bonded or printed material will degrade printing performance STORAGE ZCast powder should be stored in a cool dry environment See container labels for additional information DISPOSAL ZCast powder is a non toxic subs
67. distilled water 7 With a clean and dry paper towel wipe residue off the squeegees 8 With a clean and dry paper towel remove standing water in the parking cap 45 Wipe Here Unpark x Fress OR to re park the carriage 46 9 Locate the squeegee scraper located in the back of the printer assembly 10 Using a damp paper towel wipe off the top and bottom surfaces of the squeegee scraper 11 Close the top cover 12 Press OK on the ZPrint Software to repark the gantry service zcorp com REFILLING THE BINDER BOTTLE 1 Unscrew the black cover of the binder bottle 2 Fill with binder fluid until liquid reaches the neck of the bottle Hold bottle sideways to avoid spilling binder 3 Replace the binder bottle cover Refill until binder fluid reaches the neck of bottle CHANGING THE PRINT HEAD Change the print head if necessary The ZPrint Software will alert you if your print head is old and may not complete the build For more information about changing print heads please refer to Chapter 8 Maintenance Technical Tip If you fill the binder bottle after you change the print head there is enough binder to last until the print head s normal life is achieved www zcorp users com 47 EMPTYING THE WASTE BOTTLE 1 Remove wasie bottle by depressing the button on the waste fitting and pulling down on the waste bottle 2 Dispose of waste l
68. do www bondomarhyde com Rustoleum Acrylic www rustoleum com Interlux Brightside Polyurethane 6 You may proceed with painting the part See instructions below for more information on painting Follow all safety recommendations regarding handling storage venting and personal protection equipment when using these kinds of materials This information can be found on the Material Safety Data Sheet of each material 76 service zcorp com PAINTING PARTS This procedure reduces the amount of sanding needed to produce a nice smooth surface on Z Corporation parts 1 Depowder and dry the part 2 Hand sand the part with 230 grit sand paper lightly 3 Mix BCC Proto Kast BC8163 Proto Kast White urethane Proto Kast is a 2 part urethane Mix with a third of lacquer thinner This thins the mixture and retards the hardening process For example if you were to make 150 grams of the mixture take PE 50 grams of part A 50 grams of part mE B and 50 grams of lacquer thinner BCC products can be found at http www bccproducts com p3 html 4 Infiltrate with one coat of BCC Proto Kast urethane mixture by dipping dripping or brushing y e ert SL US Gal OE 5 Apply 10 light coats of Sher wood sanding sealer by spraying 6 Apply laquer primer by spraying A hand held air sprayer will be necessary for the highest quality surface finish 7 Apply colored lacquer gloss paint to achieve the shiny plastic
69. ds as they are when using hard tooling Additionally hard tooling may not be practical during the design process due to cost production time and likelihood of design changes RTV molding effectively bridges the gap between one off prototypes and hard tooling in a fraction of the time b RTV molding requires the production of a single master pattern which is encased in low durometer silicone rubber Using a part printed on a Z Corporation 3D Printer is the fastest and least expensive method for creating a pattern for RTV molding Once the silicone rubber encasing the pattern cures 2 48 hours depending on chosen material the master is cut out leaving a cavity The cavity is used as a soft rubber tool for molding investment casting wax epoxy foam or in most cases polyurethane or a similar thermoset material that has physical properties similar to injection molded themoplastics Cast prototypes will have the look and feel of a production piece Additional Resources for the Novice Mold Maker WWW build stuff com 002book htm www bare metal com articles gremlins how to htm www smooth on com moldmaking htm www eagerplastics com intro htm www theminiaturespage com ref fgmolds html www micromark com part mold html The quality of the pattern directly affects the quality of the part from the RTV mold because RIV rubber molds will pick up details as fine as a fingerprint from the master pattern Master patterns are classically sanded
70. e handling molten metal Molten metal can cause serious injury to unprotected eyes and skin Operators must wear at least heat resistant gloves face shields and aprons suitable for foundry operations Other protective clothing may be necessary depending on the casting operation 2 2 Safety Symbols An exclamation mark inside a triangle is a safety alert symbol The safety alert symbol is used to draw attention to safety information in this manual It is followed by a signal word WARNING or CAUTION which tells the level of risk to the user Means if the safety information is not followed someone could or A WARNING can be seriously injured or killed Means if the safety information is not followed someone may be A CAUTION injured The following symbol is used for information purposes only for example Ensure that the any loose material on the mold is removed before proceeding penile to the next step ZCast Design Guide 5 Appendix 2 3 Safety Instructions Head and follow this safety information to reduce or eliminate the risk of accidents and personal injuries GENERAL SAFETY Do not allow untrained individuals to design or handle ZCast molds during manufacturing Only trained individuals with WARNING sand casting design and foundry experience should design and handle the ZCast molds Do not bake ZCast molds in unvented ovens Irritating and toxic fumes are formed at elevated temperatures during WARNING Oven bakin
71. e paste may shift while pouring molten metal into the mold Leaking CAUTION of molten metal may cause personal injury Attach sleeves with clamps and securing wires as needed gt gt gt POURING MOLTEN METAL Do not use ZCast 501 molds with molten ferrous metals or other metals with pouring temperatures above 1100 C WARNING 20007F The molds can suddenly fail unexpectedly releasing entrapped gases and molten metal causing serious personal injury Do not handle molten metal without heat resistant WARNING faceshield gloves and apron and tools suitable for handling molten metal in foundry operations Do not handle molten metal without adequate local exhaust ventilation Hot gases emitted during the casting process WARNING can burn skin and are irritating and toxic Refer to the ZCast 501 powder MSDS for more information Inadequate venting in the mold or core can lead to the unexpected release of entrapped gases and molten metal WARNING Causing personal injury during metal casting Venting paths in the mold must be arranged and directed away from the metal path to avoid entrapment of gases Do not cast metal parts in molds with multiple sections without core paste or adhesive Molten metal may leak from CAUTION the mold seams and cause personal injury Avoid blocking vents with paste or adhesive Attachment of risers and cups without core paste may result in the unexpected release of molten metal and person
72. ebsite www cubic co jp service zcorp com INVESTMENT CASTING Z Corp parts can be used as investment casting patterns to quickly get metal parts Starch based parts can be infiltrated with cyanoacrylate resin or wax and used instead of a standard wax pattern in the investment casting process The parts burn out well and do not have any expansion problems that would lead to shell cracking Investment casting of Z Corp parts is a good way to get a final prototype or a near net shape part made of the specific alloy your application requires It can also be used for short run production when time is extremely important 2596 of Z Corp users have had a part cast at some point in their design process General Notes Consult with experienced foundry personnel to incorporate best practices in casting design when designing your pattern They will help the designer or engineer to design their part with the gate runners and secondary opera tions in mind Operations and equipment vary from foundry to foundry Success has been achieved consistently in a variety of situations and locations using the notes below as a guide Steps that have been varied to achieve success are noted Preparation 1 Starch based powder parts should be used Oven drying the part at 104 F 40 C after removal has been included in the process at some locations especially where humidity may be an issue with green part character istics Additional gate s may be incorpor
73. een 0 003 009 0 0762 0 2286 mm thick The ZPrinter 310 then prints these cross sections one after another from the bottom of the design to the top Inside the printer there are two pistons The feed piston is represented in the diagrams below on the left and is shown in the down position filled with powder The build piston is the piston on the right shown below in the up position Also represented in the diagrams is the roller drawn as a circle and the print assembly drawn as a square On the printer the roller and the print assembly are mounted together on the gantry which moves horizontally across the build area To begin the 3D printing process the ZPrinter 310 first spreads a layer of zp series powder in the same thickness as the cross section to be printed The HP print head then applies a binder solution to the powder causing the powder particles to bind to one another and to the printed cross section one level below The feed piston comes up and the build piston drops one layer of the thickness The printer then spreads a new layer of powder and repeats the process and in a short time the entire part is printed e ff lis Step 1 As the gantry traverses left to right the roller collects powder Step The roller spreads a thin layer of powder over the build piston Step X The roller discharges excess powder down the powder overflow chute Step 4 As the gantry traverses right to left t
74. em The shrinkage found in the starch material system is proportional to the part geometry and the drying time of the part The longer the part is left to dry the larger the shrinkage value The part is most stable in the x and y axis and shrinks more in the z axis Thus the anisotropic scaling factor of the z axis will always be greater than the values for both the x and y axes 3 ZCast Material System The ZCast material system has been found to remain dimensionally accurate during printing and thus the recommended anisotropic scaling values are one 1 in all axes www zcorp users com 93 OATURATION VALUES The saturation values determine how much binder is placed on the powder to print the part The part is made up of two areas the shell and the core as described in Chapter 1 Overview Thus there are two saturation values one each for the shell and core In general the shell saturation is higher than the core saturation The ZPrint Software will display the recommended values for each powder type 1 Plaster Material System The shell and core saturation values for the plaster material system are generally constant values meaning that there is only one value for all geometry types 2 Starch Material System The shell and core saturation values for the starch material system depend on part geometry A thick walled part will have lower shell saturation than a thin walled part Core saturation is dependent on the wall thickness of the
75. etup For prototype parts this greatly simplifies the mold design process Design alternatives include e The Direct Pour Method involves printing an entire mold cores and all in the ZCast material This usually uses the most material but allows for virtually no set up time and very quick production of your prototype casting e The Shell Method involves printing only a thin 1 2 inch thick mold to surround the entire part This shell is then backed with traditional foundry sand in a flask to create a mold suitable for pouring This helps to minimize the amount of ZCast material used and is ZCast Design Guide 10 Appendix particularly useful for assembling large molds that are too large to fit in the build volume of the Z Corporation Printer The Combination Method involves printing cores with ZCast material and using them in conjunction with a conventional sand mold Either the sand mold can be created with machined patterns or to keep the time of casting to a minimum the patterns can be printed on a Z Corporation 3D Printer using zp 1 00 series materials ZCast Design Guide 1 1 Appendix 4 Locating a Foundry Whether you are an experienced mold designer with a foundry in house or a design engineer who has never designed a mold the first step in the ZCast process is to run a trial with your foundry Typically any foundry will find their end of the process the set up and pouring to be very much the same as tradit
76. exact 1 1 ratio 2 Apply generously For thin parts use a brush or syringe Thicker parts can be dipped 3 Ifthe material soaks completely into the part within a minute apply another coat Multiple thin coats of elastomer will enable the part to be best infiltrated 4 A vacuum chamber will help the material to soak deeper into the part but is not required 5 Excess material can be removed with a paper towel 6 Let the parts sit on wax paper to cure Make sure excess material is not dripping into a puddle on the wax paper This will be difficult to remove after it cures WWW ZCOrp users com 85 THERMOFORMING This process consists of heating a thermoplastic sheet to a formable plastic state and then applying air pressure and or mechanical assists to shape it to the contours of a mold In this process the air pressure may range from almost zero to several hundred psi Vacuum forming is the term given when a pressure differential of up to approximately 14 psi atmospheric pressure is used The pressure is obtained by evacuating the space between the sheet and the mold in order to utilize this atmospheric pressure Vacuum forming will give satisfactory reproduction of the mold configuration in the majority of forming applications Manufacturers can use all types of thermoplastic materials PVC polystyrenes polyesters acrylics etc in this process Making light gauge plastic less than 0 060 or 0 15 mm thermoforming molds
77. feature during depowdering is greatly increased When building delicate parts use the Fixture function to cradle the part Raising the part 0 25 6 4 mm from the bottom of the build and creating a fixture under the part will produce a cradle that can be handled The part inside the cradle can easily be transported to an oven or the depowderer Do not enable the bleed compensation feature if you are building a part with features under 0 050 1 27 mm Enabling bleed compensation may reduce the feature size To increase the strength of thin parts you can decrease the layer thickness to 0 0035 0 089 mm if you are using one of the zp 100 series plaster based powder systems Then choose to override the saturation values Input the saturation values used for printing at 0 004 0 102 mm This increases the binder to powder ratio and wets more of the resins in the powder system As you increase the strength of the part in this manner you are also inceasing the amount of time to dry the part Use of the removable build plate and oven drying the part are recommended Gross AND FiNE DEPOWDERING Become familiar with where the parts are placed and how they are oriented in the build box so you do not accidentally bump or brush against a fragile part during the depowdering process When performing the gross depowdering removal of excess powder in the build box do not plunge the vacuum nozzle into the powder bed Begin at the outer perimeter of the
78. g Ovens must be vented to the outside Refer to the ZCast 501 powder MSDS for more information on the irritating and toxic fumes Bake ZCast molds until all moisture is removed before metal casting Residual moisture in the mold can cause the mold WARNING to unexpectedly fail releasing entrapped gases and molten metal and causing serious personal injury Do not use ZCast 501 molds with molten ferrous metals or other metals with pouring temperatures above 1100 C WARNING 20007F The molds can suddenly fail unexpectedly releasing entrapped gases and molten metal causing serious personal injury Do not handle molten metal without heat resistant WARNING faceshield gloves and apron and tools suitable for handling molten metal in foundry operations Depowdering with compressed air will generate airborne particles Only trained or supervised individuals should CAUTION O depowder a mold Use hood ventilation and safety goggles or faceshield to protect the eyes and face Refer to the ZCast 501 powder MSDS for more information gt PP bb DP DESIGNING MOLDS Improper design of molds can result in the release of molten WARNING metal and personal injury during the metal casting steps Only trained or supervised individuals should design molds for the Combination Method casting technique Other mold WARNING materials can unexpectedly release molten metal and cause personal injury during metal casting Use only ZC
79. g complex and challenging parts By contrast simple parts require simple gating and are more straight forward If you do not have the experience but have complex parts consult a local experienced foundryman They should be capable of helping you design your mold properly Several references are available on the topic of designing castings There are numerous publications be the American Foundry Society as well as textbooks Among the best of these are Campbell J Castings Butterworth Heinemann 2000 Heine R W and Rosenthal P C Principles of Metal Casting McGraw Hill 1955 Ammen C W The Complete Handbook of Sand Casting Tab Books McGraw Hill 1979 Important aspects in good mold design are Even filling of the mold Accurate cooling of the casting Proper mold ventilation The conventional features of designing molds for sand casting apply equally well to ZCast patterns Some of the special properties of ZCast powder affect some of the design considerations To make high quality castings a strong emphasis should be placed in the design of risers These will be discussed below Properties of light metals such as aluminum and magnesium cause them to be especially sensitive to exposure to air water vapor and mold gases Gating design for these metals should focus on minimizing turbulence during filling These metals also tend to shrink a great deal during solidification Figure 3 Direct pour molds in alumi
80. g forms can be positioned and foundry sand is packed around the printed parts ZCast Design Guide 14 Appendix r p a HTA fy Eo oe Figure 4 Shell Method ZCast components of a shell mold left Assembled mold with ZCast components packed in foundry sand Note that the risers runners and sprue have been formed in the foundry sand right 5 2 3 Combination Method Combining ZCast with the traditional sand casting techniques can keep the cost per prototype down to a minimum Mold sections cores in particular are made in ZCast while the rest of the mold is made conventionally In the combination method foundry sand is packed around a pattern The pattern can be machined from a variety of materials or the pattern can be printed on a Z Corp 3D Printer If printed the patterns would be made with one of the Z Corp plaster based materials zp100 series infiltrated with an epoxy and mounted to a board A zp100 series pattern can be used multiple times This method requires an intimate understanding of the design of conventional sand molds ZCast mold components used in the Combination method are subject to most of the same restrictions that apply to conventional mold components The advantage to using ZCast in this case is that cores and inserts can be made without any special tooling e g core boxes that would lengthen the time to produce the first casting A further enhancement of the sand casting p
81. g will open Notice the EZ Print checkbox at the bottom of the dialog box If this is checked you will continue in EZ Print mode If not you will continue in normal mode If you are opening a zbd file the software will omit generating a fixture and show the Ready to Print dialogue box shown in step 9 File pame Files of type EZ Print 4 f you are opening a zbd file and zb56 zp102 is not the material associated with the zbd file the software will Mid Eu give you the option to proceed with the current powder settings proceed with the default zb56 zp102 set The powder saved in this zbd file is notthe default powder tings or to cancel out of EZ Print mode Use Default Powder Cancel www zcorp users com 19 5 Sak ai 8 20 Once the part is loaded the software will ask if you want to Select the units in which the part was created Please choose units in which the part was created PLEASE NOTE At any time you may go back to the previous step to correct or re specify part dimensions Please Fick Units fe Inches This part s dimensions are x Length 0 710 Y Width 1 230 Millimeters Centimeters Height 4 331 Meters lt Back ext The partis too big to fitin the machine You should rescale it 6 If this part is too big to fit in the build box the software will ask you to resize the part Relative 00 a Fit
82. ge Press OK to re park the carriage cover close the top cover of the printer and press Done on the ZPrint Software to re park the gantry MACHINE STATUS State Power Online Error Beep ye i e A Oni soid sona of of L om sus ot fo ot Printing solid soid of of slow Mash of of Em osi ei s sf Booted can t find network solid off sold of Cover open close to continue Cover open print head not solid on or off off once every 30 parked seconds Auto parking sod omorof off S fast beeps flesh ap a 9 flash Press the online button to recover from an error If the error is unrecoverable the printer will reboot Press the online button to revert to serial port communication www zcorp users com 107 CHAPTER 9 SYSTEM DETAILS THIS CHAPTER COVERS THE SYSTEM DETAILS AND MATERIAL STORAGE PRECAUTIONS FOR MORE INFORMATION PLEASE CONTACT THE Z CORPORATION SERVICE DEPARTMENT AT 781 852 5050 or TOLL FREE ar 877 88 ZCorp OR visit THE USER GROUP WEBSITE AT WWW ZCORP USERS COM 108 service zcorp com SYMBOLS USED THE FOLLOWING SYMBOLS ARE USED ON THE ZPRINTER 310 SYSTEM This is the international symbol for standby power It is used on the ZPrinter 310 power switch The printer is partially powered as soon as you plug itin The power switch is mome
83. h 400 grit sand paper This step will remove any residual surface defects such as drips in the primer A gate to feed the casting material into the mold must be set up prior to creating the mold The gate also acts as a vent to allow air to escape the mold cavity If the part is complex the master pattern may require numerous vents The master pattern usually has the gate mounted to the highest feature and is almost always oriented in a manner such that air rising up through the mold will not be trapped If the pattern cannot be oriented to prevent trapping air additional vents will need to be added to allow the air to escape Gates and vents are usually attached permanently to the pattern using an adhesive but Klean Klay and wax can also be used It is common to draw a line on the part where the desired parting line will be This serves as a reference when removing the master pattern from the mold as to where two pieces of the mold should be separated A mold release may need to be applied to the master pattern to prevent it from bonding to the mold depending on the silicone chosen Use a dry mold release if cast parts are to be painted A part cast after using a dry mold release will be easier to clean in preparation for painting Use a mold release that is recommended by the manufacturer of the silicone used to create the mold Mold releases can be purchased through most silicone distributors www zcorp users com 89 Choosing a Silicone There are
84. he print assembly prints the part cross section Step 5 The feed piston moves up one layer the build piston moves down one layer andthe process is repeated service zcorp com The ZPrinter 310 employs several techniques to quickly build great parts First binder solution is applied in a higher concentration around the edges of the part creating a strong shell around the exterior of the part Within parts the printer builds an infrastructure by printing strong scaffolding within part walls with a higher concentration of binder solution The remaining interior areas are printed with a lower saturation which gives them stability but prevents over saturation which can lead to part distortion id Other interior areas aterior mnfrasirucis m ted at pried m a higher saturation dis Hon iiid 4 Exterior walk printed at kicker sall rahon After printing the part is removed from the powder bed depowdered and dried The part can then be infiltrated with wax or other performance resins to increase strength and durability For more information regarding infiltrants see Chapter 6 Post Processing Because the powder layers support the structures being printed above the ZPrinter 310 prints parts without support structures of any kind and can print parts with complex geometries that are impossible for other systems There are several important characteristics of the ZPrinter 310 that will help you print the best parts for yo
85. here and how quickly to move the tip of the bottle while applying the CA being sure not to apply the CA to the same place more than once WHEN Using A Z Max ano Z Snap Epoxy If the part has delicate features infiltrate them last as the feature will be less strong after being infiltrated until the epoxy begins to cure This will decrease the chance the feature will break from the part if nudged or bumped If the part has multiple delicate features or it is impossible to handle the part without breaking a feature you may infiltrate these features only Allow the Z Max and Z Snap epoxy to cure Then infiltrate the rest of the part This will add time to post processing the part but it ensures that you have a good strong part without any fractures www zcorp users com 25 CHAPTER 3 MATERIAL SYSTEMS THIS CHAPTER COVERS DETAILED INSTRUCTIONS ON HOW TO USE ZGasr 501 AND zP9250 POWDER SYSTEMS IT DESCRIBES HARDWARE AND SOFTWARE CHANGES NEEDED TO BUILD PARTS SUCCESSFULLY WITH THESE MATERIAL SYSTEMS IF YOU ARE NOT USING ZCAST OR ZP250 POWDER PLEASE PROCEED TO CHAPTER 4 PREPARING THE 3D PRINTER FOR INFORMATION AND GUIDANCE OR ADDITIONAL QUESTIONS PLEASE CONTACT THE Z CORPORATION SERVICE DEPARTMENT AT 781 852 5050 TOLL FREE AT 877 88 ZCORP OR VIA EMAIL AT SERVICE ZCORP COM 26 service zcorp com Usina ZCast POWDER GENERAL INFORMATION ZCast501 powder is a plaster ceramic composition that allows you to print san
86. ice Below is a list of websites for several service bureaus and manufacturers around the world Many of these companies were found with an Internet search they have not all been qualified 4 82 Dips n Pieces Located in Germany They manufacture and sell water transfer printing equipment and also operate a service bureau They have worked with Z Corp parts before Website www dips n pieces de Alsa Corp Located in the United States They are a service provider capable of prototype to production quantities They also offer other finishing services and equipment Website www alsacorp com Deco Tech Located in the United States They are strictly a service provider capable of prototype to production quantities They have worked with Z Corp parts before Website www xfinishes com Yuan Heng Tai Water Transfer Printing Located in Taiwan They manufacture and sell water transfer printing equipment and provide finishing service Website www yht com tw Master Approach Sdn Bhd Located in Malaysia They offer dip printing as a service Website www maproach com Dorchase Industrial Ltd Located in Hong Kong They provide dip printing as a service Website www plasticscommerce com dorchase Cubic Co Ltd Located in Japan This company manufactures dip printing equipment Look at the network page on their website to find a comprehensive list of owners of their equipment throughout the world W
87. ing line passes through resulting in metal fouling the core vent e Cores can sometimes be incorporated directly into either mold half these internal cores possess the benefit that they are always aligned and that no requirement exists that venting pass through a parting surface e Position parting line where flash can be tolerated and or ground off putting the parting line across a complex region without room to grind will limit the possibilities of finishing the part e Keep parting line as far away as possible from core vents since some metal can leak along the parting line be careful that it does not reach the openings for core vents Metal will potentially leak out of the mold and into the core preventing the vent from performing its function e Minimize the number of jogs keep the design as simple as possible The more angles and steps in the parting line the more difficult it will be to assemble the mold accurately ZCast Design Guide 25 Appendix vents The vents may not function properly and cause the Parting lines near core vents may leak molten metal into the CAUTION unexpected release of molten metal and personal injury 6 7 Depowderability Fixed vs Removable Cores Part depowdering refers to the removal of loose unprinted AN powder from the mold cavities following the printing process gt While the possibility to print complex geometries exists such as undercuts and runners tha
88. int Graphite paint is used as a non stick coating release that is applied to patterns when forming a mold from a pattern Green sand or Pepset Common foundry sand mixed with bonding agent Pouring sleeve The pouring sleeves are essential to any mold design whether they are printed as part of the mold or inserted as a separate consumable Sleeves can also double as risers and provide a reservoir to continuously feed molten metal into the mold cavity Companies that market these consumables into the metal casting industry include e www ashland com e www foseco com e HA International LLC ZCast Design Guide 36 11 1 Sand Casting Glossary 11 1 1 Cope and Drag Molds are typically made up of two halves encapsulating the outer surfaces of the casting The two parts are called the cope and drag the cope being the top section and the drag being the bottom These components are traditionally formed by packing sand typically with a chemical binder around a machined pattern There is often a separate machined pattern for each the cope and the drag 11 1 2 Cores Cores form the internal surfaces of a casting In traditional sand casting cores are also used to form features that are undercuts with respect to the parting line The limitation in traditional casting is the pattern must be pulled out of the packed sand and therefore must not contain undercuts in the pull direction Some castings will not have any cores
89. ional sand casting therefore the first choice would be to find a foundry with experience in sand casting The foundry should be set up for running prototype quantities or be able to comfortably adapt to pouring parts in low volume Depending on the design style direct pour shell method etc the foundry should be an active participant in the design The more experience you and your foundry have in pouring ZCast molds the more efficient your digital to prototyping process becomes Though not a requirement your chosen foundry should be near the location where the molds are printed Close proximity minimizes the amount of travel the molds must endure Molds and cores may be shipped even around the world but they must be packaged carefully Shipping molds long distances can add days to the development cycle and increase risk of damage due to shipping We recommended that you provide a copy of this design guide to your chosen foundry partner 4 1 Foundry Trial Parts Once you have a foundry you ll want to introduce them to the ZCast process with a trial mold Z Corporation can supply you with files for two such parts One is a cover plate and the other is a manifold Figure 1 Cover Plate mold and casting Figure 2 Manifold mold and casting The molds can be printed baked and brought to your foundry All of the instructions necessary to pour these parts are in the ZCast Direct Metal Casting Quick Guide contact your Z Corp sales
90. iquid Binder waste should be treated in accordance with local disposal regulations 3 Replace waste bottle by inserting the bottle back onto the fitting NOTE Make sure the binder bottle is completely inserted against the fitting A double clicking sound will confirm that the binder bottle is locked into place Press the online button The green online indicator light will illuminate The ZPrinter 310 System is now ready to print 48 service zcorp com CHAPTER 5 UsiNG ZPRINT SOFTWARE THIS CHAPTER WILL EXPLAIN HOW TO SET UP THE BUILD CHECK THE 3D PRINT SETTINGS AND PRINT FOR MORE INFORMATION ABOUT THE FEATURES IN THE ZPRINT SOFTWARE PLEASE REFER TO THE ZPRINT SOFTWARE MANUAL FOR INFORMATION AND GUIDANCE ON SOFT WARE FEATURES PLEASE CONTACT THE Z CORPORATION SERVICE DEPARTMENT AT 781 852 5050 TOLL FREE AT 877 88 ZCORP OR VIA EMAIL AT SERVICE ZCORP COM www zcorp users com PLEASE NOTE Verify that the ZPrint Software has been installed Installation instructions are located in Section 1 2 of the ZPrint Software Manual OPENING OR IMPORTING A FILE 1 Launch the ZPrint Software application The open dialog i open aa box will appear Lookin JO Enges o O eea zMbocklBLD Y X83695 34 core aray rev st 55 2 Choose the file you wish to open Wiest Z comp engine 3nsti Be 2z bd Y z corp engine 3in color sti VIE 22 st Ez corp engine 3inBLACK ply 3 Click Open or d
91. isengaged from the vacuum bag you can lift and remove the bag and liner DRYING THE PART To infiltrate parts with wax the parts must be hot and dry Preheat part at 165 F or 74 C in a Z Corp waxing system or in a drying oven Remember that drying time and part wall thickness are directly related If the average wall thickness is 14 6 35 mm then the part should be in the drying oven for 30 minutes If average wall thickness is 2 12 7 mm inch the part should be in the drying oven for 45 minutes Use the chart below as a guide Average Wall Thickness Drying Time 1 8 inch 3 175 mm 15 minutes 1 4 inch 6 35 mm 30 minute 1 2 inch 12 7 mm 45 minutes 1 inch or greater 25 4 mm 90 minutes For instructions on how to use the ZW4 or ZW3 Waxing Systems please refer to the respective product s user manual 66 service zcorp com Post PROCESSING TOOLS There are six tools included in the accessories kit that are used to assist the user with gross depowdering and cleaning of the part 1 Wide Blade Utility Scraper This part is extremely useful in moving powder from the build chamber or deck surface back into the feed chamber www zcorp users com 67 2 Polypropylene Scraper When gross depowdering a bulky part such as the engine block the user may choose to carve powder away from the part instead of moving it away with either the vacuum or their hands 3 Soft Horsehair Brush This brush has very soft bri
92. l distance holding down causes continuous motion 14 CHAPTER 2 Quick START AUIDE THIS CHAPTER PROVIDES AN OVERVIEW OF THE SET UP PART REMOVAL AND PART POST PROCESSING STEPS REQUIRED TO PRINT A PART FOR A DETAILED STEP BY STEP GUIDE TO PRINTER SET UP PLEASE REFER TO CHAPTER 4 UsinG ZPRINT SOFTWARE IN CHAPTER 5 PART REMOVAL AND POST PROCESSING IS COVERED IN CHAPTER 6 FOR ADDITIONAL INFORMATION ON POST PROCESSING TECHNIQUES REVIEW CHAPTER 7 APPLICATIONS OR VISIT THE Z Corp USER WEBSITE AT WWW ZCORP USERS COM service zcorp com PRINTER PREPARATION 1 Fill the feed box with powder Remember to use any powder in the overflow bin Add fresh powder as needed 2 Spread powder over build area 3 Vacuum any remaining powder on the top deck 4 Clean and wipe the squeegees and parking cap on the service station with distilled water 5 Clean the squeegee scraper with a damp paper towel www zcorp users com 15 6 Check binder level and fill if necessary Fill the binder fluid to the neck of the tank 7 Check the waste bottle Remove and dispose of liq uid in accordance with local disposal regulations 8 Put printer online 16 service zcorp com PART PRINTING 1 Launch the ZPrint Software application Open or import the file for the build pe LB perrea me E A E sim A ao O ee gum Ea Ba 2 Check 3D Print Setup Make sure the sof
93. l cable or network connection Selecting a non ZPrinter 310 printer or an offline printer will not allow you to continue with EZ Print mode 10 The software will take you through four or five steps to prepare the Printer You will find pictures for each step or a video for the complete process EZ Print Mode E x Fill feed piston with powder from overlow bin 1 Remove overlow bin Picture Place powder into feed piston Picture 3 Use tamper to remove air from powder Picture 4 Turn printer offline raise feed piston Picture and tum printer online Exit lt lt Back www zcorp users com 21 ideo ai 11 Once all the steps to set up the Printer have been completed the software will begin printing your part EZ Print will automatically save your zbd file if this option is selected under the Preferences menu See Section 1 4 7 EZ Print Mode Preferences in the ZPrint 6 3 User Manual Printing ZEngine stl on ALEXEY1 Estimated FinishTime 4 52 PM starting Time 9 40 AM ee Estimated Time Remaining b 55 35 Elapsed Time 5 13 Cancel E Printing Normally sending Layer 40 of 1361 5 5 Completed LN 3 BENHNBENHBNENI ar 12 Once the print job is completed the software will begin to countdown before you will be able to remove your part from the build box You may change the set time by changing the Preferences under the Edit menu See Section 1 4 7 EZ Print Mode Preferences in the
94. l the Material Safety Data Sheet has been read and understood e Wear lab coat gloves we recommend Nitrile Examination Gloves face shield or goggles Face shield is required if spraying Apply in ventilated hood e Specialized containers recommended for dispensing and application System for avoiding spills Catch pan waxed paper or plastic drop cloth e abel disposal materials e Wear dust mask when sanding finished parts GENERAL APPLICATION NOTES Part should be fully dried before applying resin Resin reacts with water and produces heat If the part is not dried it will heat up the part and produce gas that may be an irritant to the mucous membranes Material can be brushed dripped or sprayed Material will penetrate between 0 08 0 12 inches 2 3 mm Do not over apply the material as it will pool off the part during cure cycle SPRAYING INSTRUCTIONS e Always spray in a vented hood While wearing all protective equipment insert the spray trigger nozzle into bottle Use cardboard or wax paper to protect the spraying area from overspray e Spray Z Bond only onto parts that have been oven dried and are free from moisture this ensures deepest available penetration and decreases smoking from reaction with water e Keeping the tip of the spray bottle 4 6 inches 10 15 cm away from top of the part begin squeezing the trigger e Adjust the tip of the sprayer until the desired spray pattern is reached Appl
95. nd are irritating and toxic Refer to the ZCast 501 powder MSDS for more information Z Corp tested and approved materials Alloy Pouring Temperature s Melting Temperature s Aluminum 319 1250 F 1450 F 1120 F Aluminum 356 1250 F 1450 F 11359F Aluminum 390 1250 F 1450 F 1156 F Bronze Silicon 1900 F 2150 F 1880 F 1940 F Bronze Phosphor 1900 2150 F 1830 1970 F WARNING NO ATTEMPT SHOULD BE MADE TO POUR FERROUS METALS IN ZCAST 501 MOLDS ASM metals handbook 4 edition Heine amp Rosenthal Foseco foundryman s handbook Consult Z Corporation prior to pouring ZCast Design Guide 33 Appendix 9 Material Handling 9 1 Storage Though ZCast powder has no special storage requirements it should be stored in a cool dry environment See container labels for additional information 9 2 Disposal ZCast powder is a non toxic substance Please consult the Material Data Safety Sheet for product details Dispose of ZCast powder according to local and state regulations 9 3 Powder Recycling Unprinted ZCast material can be recycled Z Corp recommends that you add new powder with recycled powder to maintain powder consistency ZCast Design Guide 34 Appendix 10 Finishing 10 1 De molding Removing a casting from a ZCast mold is virtually identical in process to the removal of a casting from a traditional chemically set sand mold After cooling and solidifying the m
96. nect the runners to the casting Runners dead end at dirt traps Figure 21 Risers are often placed at the ingates but could be put anywhere Vents are shown coming off the high points Their diameters are small so they will likely freeze off before they reach the upper surface of the cope Principles of Mutual Casting Heine amp Rosenthal Castings John Campbell ASM Mutuals Handbook Volume 13 12 Conclusion If you have questions about any of the information contained herein or need additional information please contact us at applications zcorp com ZCast Design Guide 39
97. nes to obtain best results when designing vents for your cores e The cores should be shelled in by approximately 0 25 in 6 35 mm wall thickness where possible e Any single wall of the core should be no thicker than 0 5 in 13 mm or thinner than 0 14 in 3 5 mm Very slender cores with thinner Core Vent walls are possible over short Menge lengths distortion will limit how long they can be e The core vents should continue through the mold walls and out to Figure 9 Venting the core the atmosphere This should typically be done through the core print as far away from the parting lines as possible to limit the possibility of metal leakage Vents not located in the core vents too close to parting lines or vents that break through to the casting surface may A CAUTION leak molten metal and cause personal injury Locate vents in the core away from the casting surface and as far as possible from parting lines e Depowdering heavily contoured core vents can be a challenge if 0 12 in 3 mm diameter vents curve into a tight radius ZCast Design Guide 21 Appendix 6 5 2 Venting the Mold Vented molds facilitate the safe passage of gas generated as a result of molten metal coming into direct contact with the ZCast material The design and adequacy of the mold vents is a contributing factor that strongly influences whether quality castings are made or the mold possibly fails releasing molten metal Therefore when de
98. ng values scale the model to accommodate any shrinkage or expansion of the part either due to characteristics of the material system or infiltrant system being utilized A scaling value of one 1 is equal to 100 of the part in a specific axis If the part shrinks 1 in a certain axis the correct anisotropic scaling value would be 1 01 in that axis The ZPrint Software will display the recommended values for each powder type The scaling factors may differ according to wall thickness and geometry of the part A higher accuracy level may be obtained by measuring the part and adjusting anisotropic scaling values as needed To obtain new anisotropic scaling factors that are part specific print the part with scaling factors of one 1 in all axes Once the part is completed post process the part Measure the x y and z axes Divide the nominal value by the measured value For example if the printed part had a nominal value of 1 and had a measured value of 0 98 the scaling value would be 1 02 After calculating the anisotropic scaling values input them into the software and reprint the part and follow the post processing procedure 1 Plaster Material System The plaster material system has been found to remain dimensionally accurate during printing and thus the recommended anisotropic scaling values are one 1 in all axes If the infiltrant system being used changes the accuracy of the part please alter the values as needed 2 Starch Material Syst
99. ntary contact and toggles the machine from idle mode to full power on mode This is the international symbol for warning or caution When it appears on the exterior of the equipment it indicates the need to consult your manual for further information SYSTEM SPECIFICATIONS Operating Conditions 68 to 85 F 20 29 C 20 to 60 Relative Humidity non condensing Lithium Battery Internal to the ZPrinter 310 is a lithium coin cell type battery This may be any one of the following Type CR2032 either Maxell Panasonic Renata Sanyo or Sony PLEASE NOTE This battery is not in a user accessible area and is not user replaceable The expected lifetime of the battery is in excess of five years Replacement will be handled by your Z Corporation customer service representative FCC Notice Note this equipment has been tested and found to comply with the limits for a Class A digital device pursuant to part 15 of the FCC rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interferance to radio communications Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own
100. num after pouring note significant number of risers ZCast Design Guide 13 Appendix 5 2 Selecting a Design Method This first step in designing a mold is to decide which design method best suits the desired casting These are the three basic methods 5 2 1 Direct Pour A mold designed by this method incorporates the cavity of the casting and the entire gating system including risers and vents This keeps the mold setup simple by minimizing parts lt is most handy for small molds up to 5 lbs in aluminum or 15 lbs in bronze Larger castings can be feasible if the gating system is kept simple For example a short sprue leading to a single gate These molds are least complicated usually only two or three parts Using the Direct Pour method the parting surface need not be a flat plane as usually is the case in conventional sand casting Nor does the gating system need be constrained to the parting surface The requirement for draft with respect to the parting surface is absent as well This method is ideal for molds for which the components entire cope entire drag and cores can each be printed out in their own build without modification 5 2 2 Shell Method In this method the mold cavity is formed by a 0 5 in 13 mm thick shell of ZCast material and is held in place by backing it with conventional sand The gating system sprue wells runners and risers are constructed in the foundry sand merging with ingates and riser h
101. old can be unclamped and broken apart Breaking a mold can usually be done with a hammer or other blunt object Once the majority of the mold material has been broken off the cores and detailed sections can be cleaned out with a high pressure water jet or by simply breaking them apart with a tool a simple screwdriver will work well All sand casting foundries will be set up with the means to remove ZCast material from a finished casting Figure 14 Despatch baking ovens offered through Z Corporation releases airborne objects and may cause personal injury Breaking molds with a hammer or high pressure water jet A CAUTION Wear eye face and hand protection while breaking molds 10 2 Secondary Operations Castings will often need secondary operations all of which are identical in process to traditionally cast parts At the very least the material formed in the gating system will need to cut off The flashing will probably need to be ground off Machining may need to be done on critical surfaces remember to add machining stock typically around 0 080 in 2 mm Holes may need to be drilled out and tapped The surface may be bead blasted or sand blasted Castings may be heat treated and dusts and may cause personal injury Wear eye and Drill cutting or grinding cast parts releases airborne objects A CAUTION face protection while performing these tasks 10 3 Ovens You can bake your parts in one of the ovens offered through
102. oles that penetrate the ZCast shells This method is conceived for larger molds than those used in the Direct Pour method and when the gating system would require very large ZCast components If the size of the mold exceeds the working volume of the printer the Shell Method is recommended These molds are more complicated to design than Direct Pour molds and require the designer to be familiar with tool design for conventional sand casting The designer must allow for the ZCast pieces to mount to a pattern board which aligns them with respect to the rest of the mold The ZCast shells must provide connections to the gating system vents and risers and they must have features that anchor them to the backing of foundry sand Finally the ZCast shells must be structurally sound by themselves so they can be handled and baked individually metal and personal injury during the metal casting steps Improper design of molds can result in the release of molten A CAUTION Only trained or supervised individuals should design molds The printed mold pieces consist of cores and a uniform shell at least 0 5 in or 13 mm that surrounds the mold cavity A flange of similar thickness extends out on the parting line The flange contains vent holes core prints and alignment pins The mold pieces can be built in sections and aligned together on a blocking board usually a plywood construction The blocking board assembly is placed in a mold box Standard gatin
103. omponents of the System 2 Quick Start Guide This section provides an overview of the steps needed to print a part 3 Material Systems This section instructs you on how to use ZCast Powder and zp 250 powder with instructions on how to prepare your printer print and post process the part 4 Preparing the ZPrinter 310 to Print This section guides you through putting powder and binder solution in the Printer and cleaning the Service Station 5 Printing a Part This section takes you through preparing the build and checking parameters in the ZPrint Software before printing 6 Post Processing This section leads you through removing the printed parts from the build envelope removing excess powder from the part and infiltrating the parts to improve strength and surface finish T Applications In this section you will learn some advanced post processing steps that will enable you to enhance the way you use the 3D Printer 8 Maintenance Here we review a few preventative maintenance steps offer some tips for troubleshooting and inform you about where to go if you experience any problems with the system WWW ZCOrp users com 5 How ir Wonks Z Corporation 3D Printer processes are based on the Massachusetts Institute of Technology s patented 3DP Three Dimensional Printing technology The Our proprietary ZPrint Software first converts a three dimensional design built using 3D CAD into cross sections or slices that can be betw
104. ouble click the file 4 Choose the dimensions and powder type you will be using 5 Click OK The file will be brought into the software and sliced If you would like to open additional files choose the Import option under the File menu ORIENTING THE PART PART CONTAINING AN OPENING OR HOLLOW AREA If the part has an opening or is hollow place the opening or hollow side of the part in position so that it is facing upward This will allow for the removal of powder during the depowdering process Part with Opening Lay UL Hegi zo PH ches pz pesci 90 service zcorp com PART CONTAINING OVERHANGS Unsupported overhangs should be placed on the left hand side of the build The plaster powder being extremely fine is more fluid in the build box Placing a fixture underneath overhanging surfaces will reduce the movement of the overhang For information on generating fixtures refer to the ZPrint Software Manual Cylindrical features will be more accurate when their axis is parallel to the z axis For example if you were to print a bottle the bottle would best be printed standing up with the mouth of the bottle facing the top of the printer Layri h Hegi PB liler www zcorp users com 91 CHECKING BUILD SETTINGS ALWAYS check build settings before printing 1 Choose the 3D Print Setup option from the File menu or toolbar 2 Check that the printer powder type and powder set
105. oved before metal casting Residual moisture in the mold can cause the mold CAUTION to unexpectedly fail releasing entrapped gases and molten A metal and causing serious personal injury Do not bake ZCast molds in unvented ovens Irritating and toxic fumes are formed at elevated temperatures during CAUTION oven baking Ovens must be vented to the outside Refer to the ZCast 501 powder MSDS for more information on the irritating and toxic fumes Final Depowder Immediately prior to pouring gently rub the mold surface to knock off any loose material and blow dust away with compressed air Depowdering with compressed air will generate airborne particles Only trained or supervised individuals should A CAUTION depowder a mold Use hood ventilation and safety goggles or faceshield to protect the eyes and face Refer to the ZCast 501 powder MSDS for more information Seal Run a bead of core paste around the parting surfaces to prevent metal from leaking out of the mold during pouring Use caution not to block vents Do not cast metal parts in molds with multiple sections A CAUTION without core paste or adhesive Molten metal may leak from the mold seams and cause personal injury Avoid blocking vents with paste or adhesive ZCast Design Guide 31 Appendix Clamp Carefully close the mold with the cores in place Clamp with C clamps or similar and orient in the proper direction for pouring Attach pouring cup
106. peration use the vacuum provided as part of the ZPrinter 310 System Vacuuming powder can generate Static electricity and use of a non grounded vacuum hose will create static charges which may affect the operation of the printer and harm the operator service zcorp com DEPOWDERING THE PART www zcorp users com 1 Place parts inside the depowdering unit 2 Using the compressed air system included in the depowdering station remove any excess powder that remains on the part TECHNICAL TIPS The air pressure on your depowdering station is adjustable For bulky parts turn the air pressure up For more delicate parts turn the air pressure down 574 ZD4i DEPOWDERING SYSTEM Vacuum Nozzles Compressor a 1 Turn on air compressor 08 service zcorp com ON OFF Switch 2 Turn external vacuum on 3 Open the top cover place part s in depowderer and close top cover 4 Place hands in depowdering unit Check air pressure and adjust on the air compressor www zcorp users com 59 5 Depowder your part s 60 Press down on airgun knob to release air service zcorp com ZD4 DEPOWDERER DETAIL Handles to Lift Top Cover a Air Pressure ON OFF pU Control s x j www zcorp users com ON OFF Switch 1 Turn on depowdering unit Vacuum and air compressor should be on Vacuum Suction Control 2 Lift top cover place parts in depowderer
107. plied in the toolbox that accompanies each ZPrinter 310 System squeeze oil onto the wicks until saturated approximately 10 seconds 8 Close the carriage cover and press on the carriage plunger until it clicks 98 service zcorp com 9 Using the oil canister supplied in the ZPrinter 310 toolbox squeeze oil into the two holes found in the carriage above the fast axis rail for about 10 seconds 10 Close top cover 4 o tiny holes are located in the Fa frpnt and back of the carriage m 11 Place the printer back online 12 Press OK to repark the gantry www zcorp users com 99 REFILLING THE WASH FLUID RESERVOIR Refill the wash fluid reservoir with zc10 wash fluid when alerted by the ZPrint Software or refill if the wick on the service station has dried out One bottle of wash fluid will fill up the entire reservoir The ZPrint Software will alert you when it is time to refill the wash fluid if the maintenance reminder feature is enabled S105ervice Purge Print Heads 1 Select the Unpark option in the ZPrint Software Unpark under the 310Service menu Print Head Report view Printer Log Maintenance Fill Bed Edit IMI File Send File Receive File 2 Take the printer offline 3 Lift the top cover of the printer 4 Manually move the gantry to expose the service station 5 Remove the red wash fluid reservoir cover 100 service zcorp
108. r to reinstall the scraper blade when printing with ZCast is complete Follow the instructions below to remove the 1 Turn off power and unplug the printer 2 Slide gantry to the middle of the print area 3 Remove the cable enclosure cover by unscrewing the two screws on the top of the enclosure www zcorp users com 27 4 Remove the cable enclosure 5 Disconnect the ribbon cable 6 Disconnect the head power card 7 Twist and disconnect fluid supply fluid tubing service zcorp com WWW ZCOrp users com 8 Remove the snowplow from the front of the printer mod ule Slide the snowplow away from the edge of the build box until it disengages from the retaining tab Press on the top edge of the snowplow until it pops off the spreader roller 9 Repeat step 8 for the snowplow in the back of the printer module 10 Using the 3 16 hex wrench remove the mounting screw located on the right side of the motor assembly 11 Using the same hex wrench remove the mounting screw located on the left side of the motor assembly Support the printer module by hand while removing the mounting screw 29 12 Pivot the front of the printer module up while lifting from the rear and remove Place the printer module on a flat area 13 Using the 3 32 hex wrench remove the three hex screws holding the scraper blade retainer and scraper blade onto the printer module One screw located in the front and two in the ba
109. r ribs have been cast but there are limits on how far the feature can extend Volume no tested limit Size limitations are related to build size However molds can also be built in sections and assembled to make much larger molds Closed nearly closed volumes if the core does not have enough body at the core print to support itself for example the core of a two liter soda bottle very narrow neck with respect to the size of the core then the core may break in the mold If the core narrows down at the core print so that the bulk of the core cannot be vented then there is risk of high porosity in the casting 6 10 Wall Thickness Guidelines As indicated in the section 6 3 Shelling Your Mold thinner sections bake quicker and more efficiently Maintain the following guidelines for modeling your mold with thin walls Any mold wall that is in contact with metal should be no less then 0 5 in 13 mm thick and no more than 1 in 25 4 mm thick with exceptions below The mold should be able to sit square on a base for pouring Ribs should be added where necessary to provide rigidity typically in the drag where a supporting surface is being built up Ribs should be about 0 5 in 13 mm thick Maintain large enough areas for clamping Use off the shelf pouring cups and risers Mold wall thicknesses of less than 0 5 inches 13 mm may allow A CAUTION molten metal to leak from the mold unexpectedly and cause personal injury
110. r s user manual zb56 binder is the required binder system for zp250 powder Fill the feed piston with zp250 powder ZPrinter 310 users may use the removable build plate Z Corp part number 06302 to aid in the removal of the 3D printed part after the build is completed Place the build plate onto the build piston and lower the build piston until the top surface of the removable build plate is slightly below the surface of the top deck of the 3D printer to make certain that the spread roller does not hit the build plate SOFTWARE SETUP ZPrint Software version 6 2 or higher should be used when printing with zp250 powder To check the version of ZPrint Software Help currently installed select About Z Corporation Software from the Software Manual Help Menu If ZPrint version 6 2 or higher is not installed contact Contact Z Corporation the Z Corporation Service Department for an upgrade at About Z Corp System Software service zcorp com ZCorp web site Due to the nature of the open powder matrix of zp250 powder and its capacity to absorb Z Snap or Z Max epoxy infiltrant the use of a fixture generated in ZPrint Software is recommended for parts with a wall thickness less than 0 25 6 35mm on the ZPrinter 310 For a complete explanation of how to use the Make Fixture function in ZPrint Software refer to the ZPrint Software Manual Fixtures used as cradles for zp250 powder parts should be built with the following parameters
111. rect voltage 2 Press the power switch located on the back right side of the printer 3 When the online light located on the control panel is on the printer is ready www zcorp users com 39 PREPARING THE BUILD FILLING THE FEED Box 1 Press and hold the feed down button until the online light begins to blink The feed piston will lower itself until it reaches the bottom arning Use only powder supplied by Z Corporation Use of any other material may impact the performance and or safety of your ZPrinter 310 System and will void arranty and service contracts 2 Check the overflow bin to see if there is powder to be recycled If so remove the powder overflow bin If you do not have any or enough powder to recycle from the overflow bin pour fresh powder into the Feed Box 3 Open the top cover of the printer 4 Fill the feed box with powder TECHNICAL TIP Keep powder containers closed when not in use to keep powder dry and free of contaminants e Scoop powder carefully to minimize airborne particles Make sure that you carefully vacuum up excess powder It only takes a minute and the cleaner the machine is the less often it will need maintenance 40 service zcorp com WWW ZCOrp users com REMOVING AIR FROM POWDER AND PACKING THE FEED Box 5 Insert the powder scoop repeatedly a few inches into the loose powder to compact it Continue for about a minute until it feels firm
112. res 51 Overhangs 51 Part Placement 7 Plaster Material System Anisotropic Scaling 53 Saturation Values 54 Polyester Resin 78 Post Processing Tools 67 Powder Compact 41 Recycle 40 Remove Air 41 Settings Anisotropic 53 Spread 43 Tamper 41 Power Switch 39 Print Head Change 93 Purge 94 Removal 93 Printing 54 Purge 94 R Removal Part 56 Set Time 56 RTV Molding 88 S Saturation Values Plaster Material System 54 Starch Material System 54 Scraper Blade Removal 27 Septum 107 Service Station 13 Cleaning 44 Slice Viewing 53 Slow Axis Grease 102 Spread Powder 43 Squeegee Scraper Clean 46 Squeegees Clean 44 Wipe 45 Starch Material System Anisotropic Scaling 53 Saturation Values 54 Static Electricity 56 Strength 7 Syringe 107 T Thermoforming 86 U Using the External Vacuum Bag Liner 63 V Vacuum Liner 63 Voltage Switch 39 W Wash Bottle 44 Wash Fluid 101 Refill 100 101 Reservoir Cover Removal 100 Waste Bottle Removal 48 Waste Liquid Disposal 48 Water Transfer Printing 80 Wax 73 Curing Information 73 General Application 73 Safety Precautions 73 Z Z Kote Resins 69 Z Max Epoxy Curing Information 70 General Application 69 Mixing Instructions 69 Painting 70 Spraying Instructions 70 ZCast Powder 27 ZD4 Depowderer Detail 61 ZD4i Depowdering Station 9 ZD4i Depowdering System 58 Zp250 Powder 34 Infiltration Addendum 37 Machine Setup 34 Part Removal and Post Processing 36 Software Setup 3
113. rinting or Cubic Printing Process Description Part preparation Print the chosen part using any Z Corporation plaster series powder The part should be infiltrated with cyanoacrylate or epoxy resin Sand the part prior to dip printing For an improved finish the part can be sprayed with a spray filler such as Plasti kote Sandable Primer or Spraila Auto and sanded again Make sure to remove any dust NOTE Many service bureaus capable of water transfer printing will take an infiltrated part and do all of the sanding and finishing for you included in the fee Film Printing The decor or pattern is printed on a special high molecular water soluble film Any image can be printed Common images include realistic wood grains carbon fiber patterns metals and metalics stone camouflage and decorative images Priming Z Corp parts should be primed and painted in a base color e g brown for parts which are to be printed in a wood grain decor 80 service zcorp com WWW ZCOrp users com Spreading Film The film is spread out on the water surface of the dipping basin The water bath is heated and kept at a constant 30 C The film dissolves and only the ink image remains floating on the water Activating The ink is sprayed with an activating material so that it becomes adhesive After spraying with activator the ink must sit for 3 minutes Transferring The parts are dipped into the water through the layer of liquefied ink
114. rocess applies to both the Shell Cast and Combination methods One can fabricate conventional patterns using Z Corp materials most preferably with zp100 series plaster based materials as shown below Use only ZCast 501 material for the mold sections and cores for the Combination Method casting technique Other mold CAUTION materials can unexpectedly release molten metal and cause personal injury during metal casting For step by step guide on this topic contact your Z Corp account representative ZCast Design Guide 15 Appendix Figure 5 Combination Method a zp102 patterns infiltrated and backed with epoxy b ZCast 501 core c traditional foundry sand mold half with ZCast core d and e finished casting 5 3 Designing Molds in your CAD System Regardless of the method you select it is likely that some CAD work will be required It is necessary to create the most accurate representation of your design digitally as it will be represented by a 3D print 5 3 1 Direct Pour Method Before addressing the mold design specifics we will consider the basic steps of designing a mold using a standard CAD package Most middle to high end CAD packages such as Pro E SolidWorks Catia Unigraphics and Autodesk Inventor etc as well as some tooling packages such as Magics Tooling will contain the tools you need to create a mold These are the steps required to design a mold 1 2i uno o I Import part data
115. s 13 mm mold wall thickness Vents not located in the cope may unexpectedly release CAUTION molten metal and cause personal injury Parting lines near core vents may leak molten metal into the CAUTION Vents The vents may not function properly and cause the unexpected release of molten metal and personal injury Loose powder left in molds may create pockets voids or block vents during metal casting resulting in the unexpected release of molten metal Ensure that all loose powder is removed before casting CAUTION gt PPP PP gt DP gt ZCast Design Guide 7 Appendix PREPARING AND BAKING MOLDS Bake ZCast molds until all moisture is removed before metal casting Residual moisture in the mold can cause the mold A WARNING to unexpectedly fail releasing entrapped gases and molten metal and causing serious personal injury Do not bake ZCast molds in unvented ovens Irritating and toxic fumes are formed at elevated temperatures during WARNING Oven baking Ovens must be vented to the outside Refer to the ZCast 501 powder MSDS for more information on the irritating and toxic fumes Depowdering with compressed air will generate airborne particles Only trained or supervised individuals should CAUTION O depowder a mold Use hood ventilation and safety goggles or faceshield to protect the eyes and face Refer to the ZCast 501 powder MSDS for more information Pouring sleeves attached to the ZCast mold with cor
116. s and risers if necessary use core paste to glue in place in the unexpected release of molten metal and personal injury Always use core paste or adhesive for attachments Additional clamps or securing wires may also be needed Attachment of risers and cups without core paste may result AY CAUTION Pour The mold is now ready for metal ZCast Design Guide 32 Appendix 8 Pouring Metal 8 1 Metal Types The current product offering is ZCast 501 powder and is designed for low temperature non ferrous metals MAX TEMP 1100 C 2000 F The higher temperature metals will cause more gassing on contact with the mold Use of molten metals with pouring temperatures above the maximum temperature recommended for the ZCast molds can cause the mold to fail possibly explode and release entrapped gases and molten metal Do not attempt to pour molten ferrous metals into ZCast 501 molds Do not use ZCast 501 molds with molten ferrous metals or other metals with pouring temperatures above 1100 C A WARNING 2000 F The molds can suddenly fail unexpectedly releasing entrapped gases and molten metal causing serious personal injury Do not handle molten metal without heat resistant A WARNING faceshield gloves and apron and tools suitable for handling molten metal in foundry operations Do not handle molten metal without adequate local exhaust WARNING ventilation Hot gases emitted during the casting process can burn skin a
117. s dirty To clean the pogo pins follow the instructions below 1 Use the alcohol swabs which can be ordered from Z Corporation part number 12073 2 Remove the alcohol swab from the packaging 3 Crush the plastic casing to release alcohol into the swab 4 Open the carriage cover 5 Wipe the pogo pins 6 Close the carriage cover www zcorp users com 95 OiLING THE Fast Axis The ZPrint Software will alert you when it is time to oil the fast axis if the maintenance reminder feature has been enabled Warning DO NOT use grease on the fast axis S105ervice Purge Print Heads Unpark 1 Select the Unpark option in the ZPrint Software under Print Head Report the 310Service menu View Printer Lag Maintenance Fill Bed Edit IMI File Send File Receive File 2 Take the printer offline 3 Lift top cover 4 Manually move the gantry to the middle of the printer 5 Apply a small amount of oil on a paper towel service zcorp com WWW ZCOrp users com 6 Locate any residue build up on on the fast axis rails 7 Wipe both of the fast axis rails with the paper towel to remove the residue Make sure to move the carriage and wipe the back of the rail 5 Manually move the carriage to the middle of the printer 97 6 Lift the carriage cover to expose the two oil wicks located on the right side of the print head 7 Using the oil canister sup
118. signing mold vents careful consideration is placed on their overall design capacity placement and number Here are the more common vent design issues a mold designer must consider Large Surface Area To Volume Ratios As depicted in the example below closely spaced thin walled mold geometries can lead to gas entrapment because there is a large area of interaction between the molten metal and the resins in the ZCast powder In some situations such geometric conditions can impede proper ventilation Mold geometries with thin walls such as those used to cast heat sinks illustrate this issue well They require careful design and placement of vents to prevent unexpected mold failure and yield quality castings Excessive mold wall thickness can prevent adequate curing of the binder resins during the mold baking process Inadequately baked molds when in contact with molten metal will create excessive quantities of gas and an increased possibility of unexpected mold failure during casting Poor ventilation can cause the entrapment of gas during the pouring process resulting in the unexpected release of molten metal through the gating system Gas entrapment within the mold cavity walls will result in an infiltration of gas in the molten metal This entrapment will show up in the solidified casting resulting in porosity a quality control issue Heat sink fins require a thin wall mold ZCast Design Guide 22 Appendix S
119. stles and assists the user with the gross depowdering process Brushing powder away from the part is a useful technique prior to the vacuuming step 4 Stiff Detailing Brush This brush has very stiff bristles which are useful for scrubbing caked powder out of tight areas of a part The brush is also very helpful when removing fringing from color part surfaces 5 Stiff Handle Brush This tool serves the same purpose as the otiff Detailing Brush but is slightly larger and is more useful when working with a larger surface area 6 Soft Acid Brush This part can also be used to remove caked powder from hard to reach areas and the soft bristles make this brush perfect for delicate features service zcorp com INFILTRATING THE PART WITH Z KOTE RESINS All parts can be infiltrated with a variety of resins to produce a range of material properties As an early stage design tool it may not be necessary to infiltrate the parts at all However the true versatility of the Z Corp System is derived from the spectrum of material properties that can be achieved by applying one of our infiltration materials to parts For additional information on how Z Corp customers are utilizing our line of infiltration products call us at Z Corporation or visit our user group website at www zcorp users com Here you will find a variety of application stories and technical tips that describe the many ways that our system can benefit your operation UsiNG
120. t recom mended as they tend to produce off ratio mixtures Placing the mold in pressure pot after material has been cast into itto minimize any bubbles present is a common practice This will reduce the effects trapped air will have on the final part Follow the cure cycle of the cast material before attempting to de mold the cast part Conclusion RTV molding is an extremely efficient method of generating multiple parts with thermoplastic properties There is no faster method of generating the master pattern than with a Z Corp 3D Printer which will reduce the overall time it takes to get your final cast part Whether a Z Corp 3D Printer is your complete prototyping solution or just a piece of it there is no tool more valuable at saving the things most valuable your time and money Flash Cast material that has squeezed into the space between mold halves typically at the parting line www zcorp users com 91 CHAPTER 6 MAINTENANCE HIS CHAPTER COVERS ROUTINE MAINTENANCE STEPS AND PROCEDURES THAT ARE RECOMMENDED TO KEEP THE ZPRINTER 310 OPERATING IN OPTIMAL CONDITION IT INCLUDES PROCEDURES ON CHANGING THE PRINT HEAD OILING THE FAST AXIS FILLING THE WASH FLUID RESERVOIR AND GREASING THE SLOW AXIS AND PISTON SCREWS IT WILL ALSO EXPLAIN THE PROCESS OF CHANGING BINDER FLUID AND BLEEDING AIR FROM THE FLUID SYSTEM FOR INFORMATION AND GUIDANCE ON ADDITIONAL MAINTENANCE STEPS PLEASE CONTACT THE Z CORPORATION SERVICE DEP
121. t tunnel under the mold cavity the risk remains that all of the powder may not be removable during depowdering Loose powder left in the mold when metal is poured has the possibility of affecting the outcome of the finished casting by creating pockets or voids Rubber Hose Figure 10 Attach a flexible plastic hose like the one shown above to reach blind spots In order to avoid the aforementioned ensure that your mold has undergone a thorough removal of powder In difficult to reach areas such as blind channels and areas not visible use a small flexible hose like the one shown in Figure 10 to extract loose powder A 1 8 in 3 2 mm O D and 1 16 in 1 6 mm I D urethane tube is ideal because it slides firmly over the nozzle on the ZD4 or ZD8 depowdering units Loose powder left in molds may create pockets voids or A CAUTION block vents during metal casting resulting in the unexpected release of molten metal Ensure that all loose powder is removed before casting Depowdering with compressed air will generate airborne particles Only trained or supervised individuals should A CAUTION depowder a mold Use hood ventilation and safety goggles or faceshield to protect the eyes and face Refer to the ZCast 501 powder MSDS for more information 6 8 Mating Surfaces The mating surfaces of the mold should be offset to accommodate for surface imperfections A total gap of 0 02 in 0 51 mm should be created in the model at
122. tance Please consult the Material Safety Data Sheet for product details Dispose of ZCast powder according to local and state regulations QUESTIONS AND SUPPORT If you have any questions regarding this product contact the Z Corporation Applications Team for technical support at 781 852 5050 or via email at applications zcorp com www zcorp users com 33 UsiNG zP250 POWDER Zp250 powder is formulated for Z Corporation 3D Printers utilizing the Hewlett Packard print head technology the ZPrinter 310 Z 406 and Z810 3D Printers Specifically formulated to have an open matrix to absorb infiltration resins zp250 powder is an extremely versatile composite based powder used to fabricate models with plastic flexural properties which are ideal for snap fit applications It can be used as your sole powder to fulfill a number of application needs zp250 powder is best suited for monochrome parts It is also recommended for parts that have a wall thickness that is greater than 0 06 1 5 mm MACHINE SETUP Remove all of the powder currently in the ZPrinter 310 feed piston build piston overflow bin Remove all powder in the depowdering unit and install a new vacuum bag in the vacuum unit Check to see if the binder solution currently being used is compatible with zp250 powder If you are not currently using zb56 binder replace the current binder with zb56 binder then flush and purge the fluids system in accordance with your respective printe
123. tantial for most customer needs Castings can be produced in as few as one or two days for a fraction of the cost of traditional tooling 3 1 The Material ZCast 501 powder is a plaster ceramic composite suitable for casting low temperature metals aluminum magnesium and zinc Tests conducted by Z Corp and it s foundry partner Griffin Industries have shown results that mimic traditional sand casting finishes and tolerances Many successful castings have been made in 356 390 and 319 aluminum as well as zinc bronze and magnesium The ZCast material set can be used on the Z810 Large Format 3D Printer the Z406 3D Printer and the ZPrinter 3D Printer Do not use ZCast 501 molds with molten ferrous metals or other metals with pouring temperatures above 1100 C A WARNING 2000 F The molds can suddenly fail unexpectedly releasing entrapped gases and molten metal causing serious personal injury 3 2 Design Freedom In addition to reducing the time and cost to create a prototype casting the ZCast process also provides the freedom to produce complex castings that previously were difficult or impossible to produce using conventional tooling methods One of the powerful features of the ZCast process is the freedom to incorporate undercuts and channels in the molds Runners and vents can be formed inside the mold that are otherwise impossible to machine cores can be integrated into the mold minimizing the number of parts and simplifying s
124. teageenaaduaveatcnantauet 33 9 Material TIGIN GUNG sisi 34 OS co E EUM 34 de DISPOS cM EN 34 93 PoWwdeb HecVEllhig cits Sosy RR LI Ef cups 34 OMNI ID Ide A PA 35 10 1 pg EU ETT 35 10 2 Secondar Opera Sc T T m US 35 10 3 OVENS si O ce ves DIUI LIE M cour ID DUI C eee 35 11 FoundryConsumables 36 11 1 Sand Casino AOSS Vat da tte ie eae ete 37 Vivid Gopan Drag e ee atteso ee act dt da iaa ate 37 EAE eT A 37 MS DOS lt a oe mere Ce rer KARAR tias een 37 AA OUD A ER PA cas ea ences YK MR Ny NE 38 ARA O A KR RE rA 38 UP eC TRECE TREES RUE ei YOON ADA 38 ECCE S E TUTUP 38 WAC ING ALCS spesial O 39 TIAS RISOS iuern a a a a 39 12 COn USIO oneee UT 39 ZCast Design Guide 3 Appendix 1 Introduction The ZCast process was created to allow for the rapid fabrication of metal parts It allows cast metal parts to be verified without the time and expense that is typically associated with production tooling While the range of uses is broad the ZCast process most closely resembles sand casting in both the finished part and the functionality of the mold It is suggested that anyone making parts with ZCast powder should Become familiar with the design of sand casting molds Locate a foundry experienced with the sand casting process ZCast users range from individuals with little or no mold design to knowledgeable experienced pattern makers or foundrymen Since ZCast users possess a wide range of experience
125. technical data sheet that can be found on the User Group Website at www zcorp users com 72 service zcorp com UsiNG PARAPLAST X TRA Wax Paraplast X Tra is a low viscosity general purpose infiltration wax formulated to melt at very low temperatures 122 F or 50 C and strengthen both starch and plaster powder parts This material cures rapidly and enhances the vibrancy of color parts Paraplast is available in a case of eight 2 2 Ib 1 kilogram bag of chips SAFETY PRECAUTIONS Liquid wax is hot and may cause burns Follow all recommended safety precautions for your Z Corp Waxer Wear gloves when handling hot parts GENERAL APPLICATION NOTES e Parts should be dried in an oven at 100 F 38 C prior to infiltrating with wax for deeper wax penetration e f the part is bulky you may preheat it at 150 F 66 C for up to 30 minutes e Soak part in liquid wax tank follow all tank manufacturer s instructions e Remove infiltrated part from waxer Place part in an oven at 150 F 66 C until the wax has penetrated or melted off your part usually around 15 minutes Be aware that these are simple guidelines Your specific applications may require additional steps CURING INFORMATION Allow your parts to cool after removal from the oven until the part is no longer warm to the touch www zcorp users com 73 CHAPTER 7 APPLICATIONS IN THIS SECTION YOU WILL LEARN VARIOUS WAYS TO MAXIMIZE THE VERSATILITY OF YOUR Z COR
126. than conventional foundry sands Vents can be small holes usually at high points in the casting extending through the cope to the atmosphere These are often small enough 0 125 in or 3 mm is recommended to freeze off before the metal reaches the exterior of the mold Vents also must be used in cores Figure 9 When molten metal comes in contact with ZCast compounds out gassing occurs If the cores are solid the gas would have nowhere to go but For more detail attend online ZCast Design Guide seminar or refer to the ZPrint software help section ZCast Design Guide 20 Appendix into the metal When gas passes through the metal as it cools it can be trapped forming pockets called porosity To avoid this the cores can be hollowed with the hollow sections vented through the core print to the outside of the mold It is important to keep the venting path away from the metal path Inadequate venting in the mold or core can lead to the unexpected release of entrapped gases and molten metal A WARNING Causing personal injury during metal casting Venting paths in the mold must be arranged and directed away from the metal path to avoid entrapment of gases Do not handle molten metal without adequate local exhaust A WARNING ventilation Hot gases emitted by during the casting process can burn skin and are irritating and toxic Refer to the ZCast 501 powder MSDS for more information 6 5 1 Venting Cores Follow these guideli
127. that the top of the build plate is slightly below the top of the build box WARNING If the gantry or the spread roller hits the build plate you may damage your printer 10 Press and hold the spread button for four spreads on the fifth spread the automatic Fill Bed routine will take over This will do 13 more spreads with coordinated piston movements to prepare the build area Press Online to cancel this operation or press Cancel from the software You may also choose the Fill Bed option under the 310Service menu in the ZPrint Software 11 Vacuum off any powder on the top deck www zcorp users com 43 CLEANING THE SERVICE STATION 310Service CLEANING THE SQUEEGEES AND PARKING CAPS Purge Print Heads Print Head Report 1 Choose the Unpark option under the ZPrinter 310 View Printer Log Service menu The gantry will move away from the service Maintenance station exposing the squeegees and parking cap The printer must be online with the top cover closed Fil Bed Edit INI File Send File Receive File 44 2 Lift the top cover of the printer 3 Manually move the gantry to the left away from the service station 4 Fill wash bottle supplied in the toolbox with distilled water T 5 Rinse squeegees with water until all debris has been ONES removed from the rubber squeegee service zcorp com Parking Cap WWW ZCOrp users com 6 Rinse parking cap with
128. tings for the build are correct 3 If the settings need to be changed select Override Press OK to confirm See Section 5 Changing Powder Parameters x Printer zPrinter 310 ZFRIMT Save Printer as Default Powder 2P1 02 Use Default Powder Save Powder az Default Powder Parameters Laver Thickness 0 1 mm Saturation Anisotropic Bleed Scaling Compensation On x 0381 mm Y 0 3048 mm Z 1778 mm Shell Core Bimder olume Ratio Sn xs Tex xs Saturation Level 100 zx 100 x Sauron 1 8 0 5 Override Use Default Save as Default Reset Factory Settinas LIF Cancel For more information on how to change the settings please refer to the ZPrint Software Manual 52 service zcorp com E e tis also strongly recommended that slice viewing and collision detection if more than one part is being printed be used before d Pun starting the build These features are found under the View menu ene Entity Selection e Slice viewing allows you to view the cross sections of the part UE to identify any slice errors ue pe d E Ten Layers Up Shift A e Collision detection will scan through the slices and report the Ten Layers Down Shift Z layer in which part overlapping is found Collision Detection Fast Rendering Calculate Part Statistics View Job Log View Detailed Report Refresh SETTING POWDER PARAMETERS ANISOTROPIC SCALING VALUES Anisotropic scali
129. to X 27 9528 inches ia ZEN inches nsn Inches Back Next Exit Loading part in EZ Print mode x proceed This allows you to confirm that the imported part and the scale are correct You may select Next to proceed with the The parthas been loaded Proceed EZ Print process or select Back to open a different part or change the scale If Next was selected the software will create a fixture It will then go through collision detection to make sure the fixture and part are not touching If there are any collisions detected the software will regenerate the fixture with a higher accuracy level PLEASE NOTE There are different options for automating fixture generation under the Preferences menu You may select always auto never or ask If the auto option is selected the software will determine if the part has a non flat bottom In these instances the software will automatically create a fixture See Section 1 4 7 EZ Print Mode Preferences in ZPrint 6 3 User Manual service zcorp com 4 apiy ALEXEYI Laver 0 Height 0 000 inehes 9 After a fixture has been created you may choose to print your part save and print later or to exit EZ Print mode PLEASE NOTE lf there is no default printer selected the software will ask you to select a printer The printer selected will need to be a Save and Print Later ZPrinter 310 and will need to be connected through a seria
130. tware is communicating with the printer by selecting Select Printer Then choose either serial or network depending on how the printer is connected to the computer The printer should show up as an option if the software is properly communicating with the printer 3 Change any powder parameters if necessary 30 Print Setup Printer Printer 310 Select Printer Save Printer as Defaut Powder P102 Use Detauk Powder Save Powder as Detaul Powder Parameters Layer Thickness 0 1 mm Shell Cue Birer volume Ratio 115 1574 limon Level 100 100 D verride Use Deiault WWW ZCOrp users com 3 View build in 2D View and examine the cross sections of the build It is also recommended that collision detection be processed found under the View menu in the ZPrint System Software if the build contains multiple parts before beginning your build Lagra E Fic aho EB SE IE 4 Press 3D Print and begin the build Printing Options Layer Print Range e Entire Build C Fromlayer p gt through LN Comments in detailed report Delay start time v Printlog s Detailed report El 18 service zcorp com EZ PRINT You may also choose to go through EZ Print mode if you are using ZPrint version 6 3 or higher EZ Print mode is useful for the inexperienced user who may need assistance in building a part EZ Print automates some functions that eliminates the need for the user to manually set up the p
131. uggested Solutions e For the majority of the molds there should be least a 0 5 in 13 mm wall thickness between the metal and the outside of the mold Mold wall thicknesses of less than 0 5 inches 13 mm may allow A CAUTION molten metal to leak from the mold unexpectedly and cause personal injury Design molds to ensure at least 0 5 inches 13 mm mold wall thickness e Around areas of the casting where low porosity is important or near thick sections in the casting there should be vents for gases to escape Insufficient venting of thick mold sections can result in the unexpected release of molten metal and personal injury during WARNING metal casting Design molds with adequate venting capacity and proper location e Vents should be approximately 0 125 in 3 2 mm in diameter and open to the atmosphere The lower limit of vent diameter is 2 3 mm determined by depowderability e Vents DO NOT need to break through to the casting surface If they pass to within 0 1 in to 0 2 in 2 5 to 5 mm from the casting surface the gas generated inside should permeate through except in extreme cases Vents not located in the core vents too close to parting lines or vents that break through to the casting surface may leak molten A CAUTION metal and cause personal injury Locate vents in the core away from the casting surface and as far as possible from parting lines e Insert vents vertically where possible opening in the cope
132. ugh filters maximum are achieved with horizontal placement d e f Vertical filter orientation ZCast Design Guide 30 Appendix 7 Mold Preparation After the mold is designed and printed in a Z Corp 3D Printer there are only a few necessary steps before you are ready to pour metal Mold Wash Mold wash is used in traditional sand casting to improve the surface finish of the castings lt is typically a suspension of silica or other refractory materials which can be sprayed brushed or used as a dip to coat the surface of the mold and cores It can improve the surface finish of a part to between 60 and 120 RMS It should be used with caution The surface can be built up too much causing unevenness and flaking Follow the mold wash manufacturers instructions regarding the drying requirements for such products Bake MOLDS MUST BE BAKED PRIOR TO POURING A ZCast mold in its untreated raw state contains about 10 moisture per unit weight Casting molten metal against untreated material releases large amounts of steam and smoke To use the ZCast mold properly it MUST be baked in an oven from 350 F 180 C to 400 F 230 C for between 4 and 8 hours depending on volume until it is bone dry and preferably medium brown in color on all cavity surfaces that contact molten metal THERE WILL BE SMOKE GENERATED WHEN BAKING ZCAST MOLDS THEREFORE THE OVEN MUST BE PROPERLY VENTED Bake ZCast molds until all moisture is rem
133. ur intended purpose Part Placement ZPrint Software will place the parts within the build box to maximize build speed the most important criteria for the majority of our users ZPrint Software positions the parts with the smallest dimension in the z vertical axis In addition to part placement however the following other characteristics should be considered Strength The ultimate strength of the part will be affected by its orientation within the print box The part will be strongest along the y axis and the x axis and less strong along the z axis This is because the cross sections are printed in continuous strips along the y axis the binder cartridge direction of travel bands across the x axis the gantry direction of travel and laminated layers along the z axis This discussion only applies to untreated parts once parts are infiltrated they uniformly take on the strength characteristics of the infiltrating material www zcorp users com Z axis Less Strong x axis Strong j so y axis Accuracy The accuracy of the system depends on the materials you choose You can employ the anisotropic scaling feature in the ZPrint Software to adjust for expected shrinkage and bring your parts into true scale More information on anisotropic scaling factors is found in Chapter 4 Preparing the 3D Printer 8 service zcorp com SYSTEM COMPONENTS ZPrinter 310 System ZD4i Depowdering Station WWW ZCOrp users com ZPR
134. utorial can be provided upon request to your Z Corp account representative 5 4 Printing Your Model Setting up your build using ZCast is the same as using other Z Corp powders Use the ZPrint software to optimize placement of your parts to be printed Be mindful that round objects are stronger printed in the X Y plane Use the Make Fixture option under the Edit menu to support overhanging features ZCast powder is denser than the zp10 zp100 and zp200 series products and therefore requires no tamping 5 5 Conclusion In summary whichever method you choose to implement the basic steps remain the same when using ZCast powder as shown in Figure 5a ZCast Design Guide 18 Appendix The ZCast process Step 1 Design the mold with gating This is done on the computer screen using design software CAD Step 2 3D print the mold This step is completed on a Z Corp 3D Printer Step 3 Finish and assemble the Step 5 Demold and finish metal casting Figure 5 Steps involved in using ZCast powder Appendix 6 Design Techniques with ZCast Patterns 6 1 Direct Gating Conventional methods of runner design are based on having a flat pattern that must be drawn out of a sand mold This forces the runners and gates out sideways resulting in a mold that covers a larger area Such a design can exceed the size of the build volume of the 3D Printer Consider bypassing the runner system entirely by gating the sprue and
135. y Z Bond to all upward facing surfaces and sides of the part Be sure not to spray the base of the part as it will stick to the surface it is sitting on Wait for the top of the part to cure or speed up the process by using an approved Z Bond accelerator CURING INFORMATION e The part should be placed on a non stick material wax paper Teflon etc or it will adhere to the surface it is sitting on while curing e Wear gloves when handling the parts to avoid contact with uncured resin e Parts will attain full strength in two minutes www zcorp users com 71 UsiNG Z SNaAP Epoxy Z Snap epoxy is a flexible toughened epoxy infiltration system specifically formulated for Z Corporation for use with zp9250 powder Parts made from zp250 powder and infiltrated with Z Snap epoxy exhibit the appearance and snap fit characteristics of plastic These parts can be easily sanded and finished For detailed instructions on how to use Z Snap epoxy with zp250 parts see Chapter 3 Using zp250 Powder GENERAL APPLICATION NOTES e All part surfaces should be clean dry and free of contaminants prior to applying Z Snap epoxy e The part should be oven dried for 2 4 hours at 150 F 200 F 65 C 85 C depending on part volume and wall thickness to drive off any excess moisture that remains in the part after depowdering e Z Snap epoxy can be sprayed brushed or drizzled onto parts Multiple thin coats applied liberally during the resin s working time
136. y a silicone mold release such as IMS Paintable Neutral Oil Mold Release www imscompany com or Hapco GREASE IT FDG www hapcoweb com liberally onto the top surface of the fixture where the part will make contact with the fixture This is done to prevent the infiltrated part from adhering to the fixture during the infiltration process 5 Gently apply Z Snap or Z Max epoxy to the bottom surface of the part and carefully place the part back onto the fixture 6 Apply Z Snap or Z Max epoxy to the rest of the part Do not apply excess epoxy as pooling will occur Several thin coats are better than one thick coat Use a paper towel or tissue paper to remove excess epoxy that may have pooled on the surface of the part 7 Let the part sit for 30 minutes at room temperature to allow excess Z Snap epoxy to drain or wick into the fixture Z Max parts should sit at ambient for 1 hour prior to the oven cure 8 If using Z Snap epoxy place the part with fixture into an oven for 30 minutes at 120 F 49 C This step reduces the occurrence of unsightly bubbling or pooling of the resin If using Z Max parts should be oven cured for an additional 2 hours at 160 F 71 C 9 Parts infiltrated with Z Snap should then be cured for an additional 2 hours in the oven at 165 F 74 C Do not place on the build plate 10 Let the part sit for 30 minutes at room temperature to cool before handling INFILTRATION ADDENDUM Parts with large unsupported

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