PRO-SET EPOXIES for Laminating, Infusion, Tooling and Assembly
Contents
1. PRO SET Tooling Epoxy is a 2 part Compound formulated for surface fairing The state of the art chemistry behind PRO SET Tooling Epoxy makes it easy to use saving on labour and yielding high quality results It blends quickly spreads easily shrinks minimally and cures within eight hours PRO SET TLG 185 TLG 285 Low Density Fairing Compound is formulated for filling and fairing composite structures in manufacturing and repair applications It can be applied in thicknesses up to 12 mm without slumping or sagging The shear thinning characteristic provides excellent feather edge application The cured compound is very easy to sand and the filler blend minimizes airborne dust during sanding PRO SET User Manual amp Product Guide TL TGL Combined Tooling Resin Hardener TLG 185 TLG 285 Typical Physical Properties Property Standard Low Density Guide Fairing Compound Test specimens are cured at um room temperature to gelation Mix Ratio by Volume R H 11 and 25 C for two weeks Mix Ratio by Weight R H 1 79 1 unless otherwise noted Neat 150g Pot Life 22 C ASTM 2471 minutes 70 min epoxy samples are used for testing See Resin Hardener Pot Life 22 ASTM 2471 minutes 48 min Technical Data Sheet for exact Approx working time 6mm application 22 C minutes 90 min values Typical values not to be Time to Sand 6mm application 22 C hours 8 hr construed as specifications Compression Yiel2. at room temperature or post curing to cure completely Resins may cause moderate skin irritation Hardeners are corrosive and may cause severe skin irritation Resins and hardeners are also sensitisers and may 4 Avoid ingestion Wash thoroughly after handling epoxy especially before cause an allergic reaction similar to poison ivy Susceptibility and the severity of a reaction varies with the individual Although most people are not sensitive to resins and hardeners the risk of becoming sensitised increases with repeated eating or smoking If epoxy is swallowed drink large quantities of water DO NOT induce vomiting Because hardeners are corrosive they can cause additional harm if vomited Call a physician immediately contact For those who become sensitised the severity of the reaction may increase with each contact The hazards associated with resins and hardeners also apply to the sanding dust from epoxy that has not fully cured These hazards decrease as resin hardener mixtures reach full cure To handle PRO SET Epoxies safely we recommend that you observe the following precautions 5 Clean up spills with a scraper collecting as much material as possible Follow up with absorbent towels Use sand clay or other inert absorbent material to contain large spills DO NOT use saw dust or other fine cellulose materials to absorb hardeners Clean resin or mixed epoxy residue with acetone lacquer PRO SET User Manual amp Product Gu
3. 1 Mo TheNew Standard Wessex Resins amp Adhesives Cupernham Lane Romsey Hampshire 5051 7LF UK pro set co uk 44 0 1794 521111 1809001 2008 Certified February 2014 CONTENTS INTRODUCTION 1 LAMINATING EPOXIES 2 INFUSION EPOXIES 4 ADHESIVE EPOXIES 6 TOOLING EPOXY 8 PROCESS EQUIPMENT 10 ADHESIVE DISPENSING GUNS IMPREGNATORS SUPPLEMENTAL INFORMATION 12 SHELF LIFE STANDARD PACKAGE SIZES PRO SET EPOXY HANDLING GUIDE 13 SAFETY HANLING PRO SET EPOXIES APPLICATION TECHNIQUES QUALITY ASSURACE CONSIDERATIONS PRO SET EPOXY TESTING TERMINOLOGY AND METHODS 22 PREPARATION OF TEST SPECIMENS HANDLING PROPERTIES MECHANICAL PROPERTIES THERMAL PROPERTIES m m a 5 a s Cover REINDEER V designed by Chuck Paine amp Assoc built by Boston Boatworks ORACLE TEAM USA Photo ZUMA Press Inc Alamy and Morris Yacht s Custom Division Photo by Art Paine PRO SET User Manual amp Product Guide INTRODUCTION Use PRO SET Epoxy to create strong lightweight composites that can withstand the harshest environments PRO SET meets your highest goals in composite performance We are reformulating and expanding our standard PRO SET epoxy product offerings to best meet the needs of modern high performance composite manufacturing Standard PRO SET Epoxies for Laminating Infusion Tooling and Assembly offer improved handling characteristics excellent cure profil
4. Choose one of four PRO SET Resins by viscosity Low Viscosity Laminating Resin LAM 125 Medium Viscosity Laminating Resin LAM 135 Thixotropic Laminating Resin LAM 145 Choose one of four PRO SET Hardeners by cure speed Fast Laminating Hardener LAM 224 Medium Laminating Hardener LAM 226 Slow Laminating Hardener LAM 229 Extra Slow Laminating Hardener LAM 237 Vacuum lamination in progress PRO SET Laminating Epoxies are a versatile system of liquid resins and hardeners designed to meet a wide range of wet lay up laminating applications Use PRO SET Laminating Epoxies to produce lightweight high performance composite structures that will withstand long term cyclic loading in the harshest environments These epoxies bond to core materials wood metal and all reinforcing fabrics They offer excellent moisture resistance toughness and superior resistance to heat and fatigue PRO SET Laminating Epoxies develop excellent physical properties at room temperature and may be post cured for enhanced performance PRO SET User Manual amp Product Guide LAM Resin Selection Property Standard P mr Mix Ratio by Volume R H 31 31 31 Mix Ratio by Weight R H 3 51 3 51 3 51 Mixed Viscosity 25 C ASTM D2196 mPas 449 616 904 1705 1495 2059 Mixed Density 22 C g cc 1 16 117 117 Shear Thinning Index ASTM D2196 RPM Rotation 1 37 Compression Yield ASTM D695 MP3 96 101
5. cure equipment or the ability of core materials or the mould to withstand post cure temperatures Although minimum recommended post cure temperatures may be lower 60 82 C is the most effective range for post curing PRO SET Epoxies other than when LAM 251 HT hardener is used The target temperature determines the maximum potential properties a resin hardener combination can reach The highest gain in properties occurs within 8 hours with diminishing gain up to 16 hours Use the resin hardener technical data sheets as a guide for determining cure schedules The laminate thickness will determine the rate of temperature increase A thick laminate may require a hold cycle to allow the temperature to normalise Start of a Farr 40 race throughout the laminate A core can insulate a portion of the laminate causing that portion to lag behind the average temperature rise Use thermocouples to monitor the temperature at various locations on the component during post cure Increase the laminate temperature at a controlled rate so the laminate temperature does not exceed the thermal properties of the epoxy in the laminate As the laminate is heated the epoxy will continue to cure The temperature ramp rate should be slow enough to allow for this additional epoxy cure pushing the thermal properties of the epoxy up ahead of the laminate temperature If the laminate temperature exceeds the thermal properties of the epoxy surface distortion or lami
6. reinforcing fabric All of the machines have a resin bath tray below the rollers The fabric can pass through a resin puddle in this tray and then through the rollers VH400 Electric Impregnator For large laminating projects in which the impregnation of fabrics is almost continuous a power driven roller impregnator is advantagous This 1500mm electric machine significantly reduces costs and building time when impregnating woven stitched or unidirectional fabrics These impregnators offer extermly high acuracy and efficiency benefits Model 892 34 impregnator SUPPLEMENTAL INFORMATION SHELF LIFE Epoxy resin and hardener formulations have long shelf life compared to many polymers The minimum shelf life for the standard INF and ADV resins and hardeners is 2 years Store at a consistant temperature above 10 C for best results dU d STANDARD PACKAGE SIZES Ge P E sc a S Because the densities of the various resin and hardeners vary slightly ay 4 2 ER o MM there are slight variations in the package volume but they are very similar Proteus high altitude aircraft built by Scaled Composites to these nominal weights for each package size PACKAGE SIZE PRODUCT Resins 1kg 5kg 25kg 225kg 1000kg LAM Hardeners 0 286kg 1 43kg 7 16kg 2 x 3 58kg 64 35kg 3 x 21 45kg 286kg 2 x 143kg Resins 5kg 25kg 225kg 1000kg INF Hardeners 1 37kg 6 86kg 2 x 3 43kg 61 65kg 3 x 20 55kg 274kg
7. 114 500g Pot Life at 22 C 50 Slow Hardener INF 212 Medium hardener 300 INF 211 10096 INF 210 Hardeners may be blended for targeted cure time PRO SET Infusion Epoxies 100 INF 213 Resins Infusion Resin INF 114 Hardeners Fast Infusion Hardener INF 210 Medium Infusion Hardener INF 211 Slow Infusion Hardener INF 212 Extra Slow Infusion Hardener INF 213 Infusion process PRO SET Infusion Epoxies are super low viscosity systems with a range of hardeners to meet the demands of modern infusion processes PRO SET Infusion Epoxies result in lightweight high performance composites that will withstand long term cyclic loading in the harshest environments PRO SET Infusion Epoxies develop excellent physical properties at room temperature and may be post cured to further enhance performance PRO SET User Manual amp Product Guide INF Resin Selection Property Standard pute Mix Ratio by Volume R H 3 1 Mix Ratio by Weight R H 3 65 1 Mixed Viscosity 25 C ASTM D2196 mPas 245 Mixed Density 22 C gcm 3 1 14 Compression Yield ASTM D695 MPa 97 0 Tensile Strength ASTM D638 MPa 71 3 Tensile Modulus ASTM D638 GPa 3 38 Tensile Elongation ASTM D638 4 95 Flexural Strength ASTM D790 MPa 123 7 Flexural Modulus ASTM D790 GPa 3 19 Tg Ultimate via DMA ASTM E1640 C gt 85 2
8. 2 x 137kg Resins 175 176 2 2kg 22kg ADV 400ml Cartridge Hardeners 273 275 277 276 1kg 10kg Resin 0 5kg 1kg 2 5kg 5kg 20kg ADV 170 Hardener 0 5kg 1kg 2 5kg 5kg 20kg TLG 185 Resin 8 2kg 20kg 171 5kg TLG 285 Hardener 4 6kg 11 2kg 96kg 12 PRO SET User Manual amp Product Guide 1 Avoid contact with resin hardeners mixed epoxy and sanding dust from epoxy that is not fully cured Wear protective gloves and clothing whenever you handle epoxies If you do get resin hardener or mixed epoxy on your skin remove it as soon as possible Resin is not water soluble use a waterless skin cleanser to remove resin or mixed epoxy from your skin Hardener is water soluble wash with soap and warm water to remove hardener or sanding dust from your skin Always wash thoroughly with soap and warm water after using epoxy Never use solvents to remove epoxy from your skin PRO SET EPOXY HANDLING GUIDE Refer to the PRO SET Technical Data Sheets for specific handling characteristics post cure schedules and physical properties for each of the resin hardener combinations Stop using the product if you develop a reaction Resume work only after the symptoms disappear usually after several days When you resume work improve your safety precautions to prevent exposure to epoxy its vapours and sanding dust If problems persist discontinue use and consult a doctor 2 Protect your eyes from contact with resin hardene
9. SET User Manual amp Product Guide 25 Motorcycle refurbished MN by Rafa Abella _PRO SET Wessex Resins amp Adhesives Cupernham Lane Romsey Hampshire SO51 7LF 44 0 1794 521111 pro set co uk All Rights reserved No part of the contents of this publication may be reproduced or transmitted in any form or by any means without the written permission of the publisher The information presented herein is believed to be reliable as of publication date but we cannot guarantee its accuracy in light of possible new discoveries Because Wessex Resins amp Adhesives cannot control the use of its products in customer possession we do not make any warranty of merchantability or any warranty of fitness for a particular use or purpose In no event shall Wessex Resins amp Adhesives be liable for incidental or consequential damages February 2014 Wessex Resins amp Adhesives Hampshire UK
10. data reported is based on epoxy mixed at the target ratio and cured under the conditions specified in the top row of the table on the product data sheets The published data is based on the same test conducted several times on multiple specimens generating average result numbers Averages not highest values are reported These averages are rounded to appropriate number of significant figures ASTM standards are followed for all testing When comparing another manufactures product to PRO SET be sure to note if they used the same standardised test 22 HANDLING PROPERTIES Pot Life is the amount of time a mixture of resin and hardener has at a workable viscosity while in the mixing container Pot life is determined using 150g and 500g samples in a standardised container at 22 C 25 C and 29 C Both mass and ambient temperature affect the rate at which an epoxy system will cure Pot life should be used only for comparative purposes when evaluating an epoxy system s cure time Working Time is the amount of time the viscosity of the epoxy remains low enough to be processed It is determined using a Gel Timer which employs a spindle traveling through an 3 2mm thick volume of liquid epoxy Working time is the amount of time the spindle can travel through the epoxy without leaving an indent in the curing epoxy Viscosity is a fluid s resistance to a shear force and can be thought of as how easily a fluid flows A Rotational Viscometer
11. good paint adhesion and a smooth finish For coating follow the paint manufacturer s instructions Gelcoats We have had good results with various in mould polyester gelcoats Because of their superior resistance to ultraviolet degradation polyester gelcoats are preferred over epoxy gelcoats for exterior finish applications Check with your 20 polyester gelcoat supplier for recommendations and test to determine product suitability and application technique Some fabricators have reported good success using a 2 part linear polyurethane paint sprayed directly onto the mould surface This coating is allowed to cure and the epoxy laminate is applied directly to the paint An epoxy gelcoat is sometimes preferred for plugs and moulds Contact the Wessex Resins Technical Staff for custom product recommendations We recommend that each brand of gelcoat or in mould coating and or tie coat technique be tested for suitability in a specific application If you have any questions about testing call the Wessex Resins Technical Staff QUALITY ASSURANCE CONSIDERATIONS This section offers quality control measures that can be employed by fabricators large and small to assure consistent high performance of PRO SET Epoxies Common Problems The vast majority of problems encountered when working with an epoxy system can be traced to either improper mix ratio or insufficiently mixed resin and hardener Metering the two components at the proper mix rat
12. of blended hardeners 2 Mixed Quantity Mixing resin and hardener together creates an exothermic heat producing reaction A larger quantity of mixed epoxy will generate more heat and yield a shorter working time and overall cure time Smaller batches of epoxy generate less heat than larger batches and have longer cure times Therefore a thicker joint thicker laminate or layer of epoxy will cure quicker than a thin layer 3 Container Shape Heat generated by a given quantity of epoxy can be dissipated by pouring the mixture into a container with greater surface area a roller tray for example thereby extending the working time Since the mixed epoxy will cure at a faster rate while it s in the mixing pot the sooner the mixture is transferred or applied the more of the mixture s working time will be available for assembly 4 Temperature Heat can be applied to or removed from the epoxy to shorten or extend working and cure times This can be especially beneficial when assembling very large or complicated components that require maximum working time and minimum final cure time Be sure you fully understand the effects of heating and cooling on the mould before implementing these techniques Before mixing moderate heat can be applied to the resin and hardener to shorten the epoxy s working time Conversely a cooler box can be used to draw heat from a roller pan to extend working time contact Wessex Resins for information about buil
13. prior to the next layup When complete the built up layers of laminate can be post cured together Not all release fabrics have an epoxy compatible coating or a texture suitable for secondary bonding with epoxy Before building a part test for the ability to bond to a surface prepared with the intended release fabric at the proposed post cure temperature Post Cure Schedules During a post cure the temperature of the laminate is slowly raised to the post cure target temperature held for a period of time then slowly lowered to room temperature Post cure schedules vary depending on the resin hardener combination the desired laminate physical properties and the capability of the post cure equipment to reach and maintain a target temperature Elevated temperature cure may begin as soon as the laminate is laid up but with precautions Keep in mind that as the uncured epoxy warms it becomes more fluid and may drain from vertical laminates or result in a reduced resin to fibre ratio in some processes In addition in thicker laminations the heat of the post cure added to the exothermic heat generated by a large mass of curing epoxy may be high enough to damage the laminate or mold For these reasons post cure should begin after the epoxy reaches an initial cure at room temperature The post cure target temperature is usually determined by the mechanical or thermal properties desired but may also be determined by limitations of the post
14. 101 Tensile Strength ASTM D638 MPa 70 4 5 Tensile Modulus ASTM D638 GPa 3 19 3 19 319 Tensile Elongation ASTM D638 5 6 6 2 6 2 Flexural Strength ASTM D790 MPa 124 128 128 Flexural Modulus ASTM D790 GPa 342 3 03 3 03 Tg Ultimate via DMA ASTM E1640 C gt 89 gt 102 gt 102 ASTM E1640 0 135 142 142 Average of properties for combinations with LAM 224 LAM 226 LAM 229 and LAM 237 Hardeners 2Additional post cure may be required contact the Wessex Resins Technical Staff for details 1 HZ 3 C per minute LAM Hardener Selection Property Standard LAM 224 LAM 226 LAM 229 LAM 237 Hardener Hardener Hardener Hardener 150g Pot Life 25 C ASTM D2471 13 min 52 59 min 93 100 min 128 163 min 500g Pot Life 25 C ASTM D2471 12 min 45 52 min 73 84 min 102 107 min Approx working time 25 C 40 min 2 3 hr 4 5 hr 7 8 hr Hardeners can be blended for intermediate cure times see chart previous page PRO SET User Manual amp Product Guide LAM Typical Physical Properties Comparison Guide Test specimens are cured at room temperature to gelation and 82 C for eight hours unless otherwise noted Neat epoxy samples are used for testing See Resin Hardener Technical Data Sheet for exact values Typical values not to be construed as specifications Pot Life Working Time minutes Infusion Hardener Blend Profile em NF 114 Working Time INF
15. As of press time TBD values are undergoing testing Average of properties for combinations with INF 210 INF 211 INF 212 and INF 213 Hardeners Additional post cure may be required contact the Wessex Resins Technical Staff for details 51 HZ 3 C per minute INF Hardener Selection Property Standard INF 210 INF 211 INF 212 INF 213 Hardener Hardener Hardener Hardener 150g Pot Life 25 C ASTM D2471 27 min 122 min 185 min 262 min 500g Pot Life 25 C ASTM D2471 25 min 85 min 132 min 175 min Approx working time 25 C 75 90 min 3 4 hr 6 7 hr 10 hr Hardeners can be blended for intermediate cure times see chart previous page PRO SET User Manual amp Product Guide Typical Physical Properties Comparison Guide Test specimens are cured at room temperature to gelation and 82 C for eight hours unless otherwise noted Neat epoxy samples are used for testing See Resin Hardener Technical Data Sheet for exact values Typical values not to be construed as specifications ADHESIVE EPOXIES ADV 170 R ADV 170 H PRO SET Assembly Adhesives are pre NoCoour NO l thickened two part epoxy adhesives used for secondary bonding of laminated composites as well as steel aluminium cast iron concrete stone and most woods PRO SET ADV 170 Adhesive is extremely versatile and has been developed for general purpose bonding of a veriety or materials PRO SET Adhesive Epoxies This adhesi
16. Slow f Toughened Purpose Hardener Hardener Hardener Adhesive Adhesive Mix Ratio by Volume R H 1 1 2 1 2 1 2 1 Working Time 12 5mm bead 22 minutes 120 min 20 min 75 min 150 min 90 min Hardness ASTM D2240 ShoreD 81 82 85 84 79 Compression Yield ASTM D695 MPa 57 74 87 81 59 Tensile Strength ASTM D638 MPa 33 43 54 49 35 Tensile Modulus ASTM D638 GPa 2 6 2 6 3 6 2 9 2 0 Tensile Elongation ASTM D638 3 3 4 4 4 4 Flexural Strength ASTM D790 MPa 61 78 98 84 90 Flexural Modulus ASTM D790 GPa 2 1 2 5 3 9 2 8 1 9 Lap Shear on A 366 Steel ASTM D1002 MPa 25 16 16 14 20 Lap Shear on 2024T Aluminum ASTM D1002 MPa 18 13 14 14 20 b Adhesion to 366 AsTM D4541 MPa 42 18 52 18 30 Tensile Adhesion to 20247 jerw paesi 37 10 47 12 24 Aluminum PRO SET User Manual amp Product Guide Typical Physical Properties Comparison Guide Test specimens are cured at room temperature for two weeks unless otherwise noted Neat epoxy samples are used for testing See Resin Hardener Technical Data Sheet for exact values Typical values not to be construed as specifications Adhesives are available in two standard colours No Colour NC and Black Bk PRO SET TLG 185 TLG 285 Low Density Fairing Compound PRO SET Tooling Epoxy Low Density Fairing Compound Resin TLG 185 Low Density Fairing Compound Hardener TLG 285 Low Density Fairing Compound
17. and assembly will allow you to make maximum use of the working life of the epoxy mixture Post Curing Resin hardener combinations reach an excellent degree of cure for most applications with only a room temperature cure Resin hardener combinations with LAM 251 HT Hardener require an elevated temperature post cure to achieve optimal physical properties Post curing is the controlled heating of an epoxy laminate after it has reached or passed its initial cure stage to improve the physical strength and thermal properties of the cured epoxy Each PRO SET Resin Hardener combination has potential maximum cured properties that can only be achieved by post curing the laminate above a minimum target temperature For each resin hardener combination there is a range of target temperatures above the minimum target temperature that will allow the laminate to reach 10096 of its potential cured properties Each target temperature within the range has a corresponding minimum hold time Higher target temperatures require shorter hold times lower target temperatures require longer hold times Maximum properties will not be reached if the actual post cure temperature is below the minimum temperature in the range However even with post cure temperatures below the minimum target temperature most resin hardener combinations will achieve increased properties Determine the post cure temperature for a resin hardener combination by the desired physical
18. ap Shear strength Tensile Adhesion Strength is the stress required to fail a bond line with a force perpendicular to the bonded surface Two aluminium or mild steel cylinders of diameter 25mm are bonded together using the material to be tested A device is threaded onto both adherends and applies a pulling force to the bonded joint The load required to fail the bond is divided by the bonded surface area and the resulting stress is reported on the data sheet as the Tensile Adhesion strength 23 THERMAL PROPERTIES Glass Transition Temperature Tg is a very useful property for understanding the thermal characteristics of an epoxy resin system The Tg is the temperature at which the epoxy changes from a glassy solid state to a soft rubbery state It can be considered the point at which a measurable reduction in physical properties occurs resulting from exposure to elevated temperatures Be aware that Tg values can be reported after a second heat The second heat is the process of testing the sample after it has been exposed to an initial first heat which resulted in an elevated temperature 200 C post cured sample A second heat Tg value is not representative of your sample unless you have replicated the 200 C cure schedule that was used for the first Tg test Tg DMA Onset Storage Modulus and Peak Tan Delta The Dynamic Mechanical Analyzer DMA determines the Tg using a mechanical method The test sample is placed into a three point bendi
19. c or paper mixing container Never use glass or foam containers because of the danger of exothermic heat buildup Begin with a small batch if you are unfamiliar with the pot life or coverage of the epoxy 2 Stir the two ingredients together thoroughly until blended to a uniform homogeneous consistency Scrape the sides bottom and inside corners of the pot as you mix If you use a power mixer thoroughly scrape the sides and corners of the mixing pot while mixing Operate the mixer at a slow speed to prevent stirring air into the epoxy mixture 3 Mix resin and hardener thoroughly in a mixing pot before transferring it to a roller pan impregnator or part Transfer the mixture immediately to maximize working time If using additives such as pigments and fillers thoroughly stir in before transferring the mixture from the mixing pot CAUTION Heat is generated by the chemical reaction that cures epoxy A plastic mixing cup full of mixed epoxy will generate enough heat to melt the cup if left to stand for its full pot life If a pot of mixed epoxy begins an uncontrolled exotherm quickly move it outdoors or to a safe well ventilated area Avoid breathing the fumes Do not dispose of any epoxy mixture until the reaction is complete and has cooled PRO SET User Manual amp Product Guide Pot Life Selection of a resin hardener combination may be based on the length of its pot life Pot life is a term used to compare the relative rate of rea
20. ction or cure speed of various resin hardener combinations By definition it is the amount of time a given mass of mixed resin hardener will remain in the liquid state at a specific temperature For comparison we determine the pot life of an individual resin hardener combination based on either a 100 or 500g mixture in a standardised container at a consistent temperature Pot life is not intended to directly correlate to actual working life or assembly time but indicates a resin hardener combination s potential working time relative to other resin hardener combinations An epoxy mixture s mass and temperature during the manufacturing or assembly process contribute to its actual working life See CONTROLLING CURE TIME Curing The transition period of an epoxy mixture from a liquid to a solid is called the cure time It can be divided into three phases working time also called open time or wet lay up time liquid state initial cure gel state and final cure solid state The speed of the reaction the length of these phases and the total cure time vary relative to the ambient temperature Epoxy Cure Phases Working Liquid State Ambient Temperature Cure Time After Mixing All PRO SET Epoxies go through the same three phases of cure The higher the ambient temperature the shorter each of the phases and overall cure PRO SET User Manual amp Product Guide 1 Working Time Working time is the assembly time of mixed epox
21. d ASTM D695 MPa 23 Hardness ASTM D2240 Type D 62 Aircraft built by Scaled Composites for Adam Aircraft Industries PRO SET User Manual amp Product Guide PROCESS EQUIPMENT 300 X Manual Dispensing Gun ADHESIVE DISPENSING GUNS 300 X Manual Dispensing Gun The two component cartridge is used with the manual PRO SET cartridge gun enabling the mixed epoxy to be applied quickly cleanly and accurately The gun easily dispenses the high viscosity adhesive and its heavy duty construction ensures precise adhesive application and long operating life 300 B Pneumatic Dispensing Gun An air powered dispenser is available for use with PRO SET Adhesive cartridges in boatyards and large production assembly units where continuous application of the mixed epoxy is required Power is supplied by a standard air compressor Dispensing with 300 MW Mixing Wands One mixing wand is supplied with each adhesive cartridge Extra mixing wands are avalible in packs of 6 Place the cartridge in the gun and ensure the two pistons are correctly seated against the centres of the seals within the cartridge Remove the locknut and plugs from the cartridge spouts and position the mixing wand over the spouts and secure with the locknut The cartridge is then ready to dispense the two epoxy components from the cartridge The resin and hardener homogeneously mix together in the mixing wand and exude from the unit as a consistent coloured epoxy
22. d heating it to 200 C at a rate of 10 C per minute The heat flow into the sample is measured and compared to an empty reference pan The difference in heat flow is measured and plotted An inflection occurs in the plotted curve at the Tg the Onset is measured at the beginning of this inflection Tg DSC Ultimate Ultimate Tg is the highest Tg value that can be attained for a particular epoxy system In order to achieve this temperature resistance in an application the epoxy must be post cured at a pre defined elevated temperature for a specific amount of time See the Technical Data Sheet TDS for a specific resin hardener combination or contact our Technical Department Heat Deflection Temperature Heat Deflection Temperature HDT is the temperature at which the epoxy will deform under constant load A sample is submerged in oil at a carefully calibrated temperature and subjected to 1 82 MPa of bending stress in the centre The temperature of the oil is then gradually raised until the bar deflects 0 25mm in the centre This temperature is considered to be the heat deflection temperature HDT of Laminate The HDT of Laminate is the temperature at which a typical 3 2mm epoxy fibreglass laminate will deform under constant load with the same test parameters as above The HDT of a laminate is so much higher than a neat resin that it will not deform even at the test s maximum temperature of 300 C PRO SET User Manual amp Product Guide PRO
23. ding cooler boxes For larger operations impregnating machines with water cooled rollers are available to extend working time After the epoxy is applied a fan can be used to draw heat from the lay up or application and extend the epoxy s working time The tooling itself can be designed to both extend working time and shorten cure time It is possible to build tooling with tubing embedded During the layup cool water pumped through the mould draws heat from the lamination extending the working time When the layup is complete hot water or steam pumped through the mold will speed the cure of the laminate Moderate heat hot air gun or heat lamp applied to the assembly will shorten the epoxy s cure time Heat can be applied as soon as the assembly is completed but most often heat should be applied after the epoxy has reached its initial cure Heating epoxy that has not reached its initial cure will lower its viscosity causing the epoxy to run or sag on vertical surfaces In some processing procedures heating too soon can lower the resin content of the laminate to unacceptable levels In addition heating parts that contain porous materials wood or low density core material can cause the substrate to out gas When air in the porous material expands and passes through the curing epoxy it can leave bubbles or pinholes in the cured epoxy Regardless of what steps are taken to control the cure time thorough planning of the application
24. dness This method is recommended for quality control purposes and not for establishing specifications This test is performed using a durometer measuring the D scale The indenter needle is pressed into the cured epoxy sample and the resistance is recorded on an indicator Durometers are available from industrial supply companies Any instrument meeting the ASTM PRO SET User Manual amp Product Guide D 2240 requirements can be used Some resin manufacturers specify Barcol hardness readings However we feel the D scale Durometer is more sensitive than the Barcol tester and is more appropriate for epoxy testing Unfortunately there is no direct conversion from the D scale to Barcol scales It is often a good idea to prepare a special quality control sample for testing and to keep quality control samples of cured epoxy for future reference It can be as easy as pouring a portion of the mixed epoxy you are using into a mould or suitable container Label this sample and cure it under the same conditions as your project It may be sufficient to check the hardness right on the part you are building as long as there is a flat area large enough to use the durometer A fully cured sample of epoxy will usually show a durometer D scale hardness of 81 90 A sample that has not had sufficient time to cure will have a lower hardness However if the hardness does not increase after a reasonable amount of time there are several possible causes which should b
25. e investigated The temperature may be too low to allow the epoxy to cure properly the epoxy may have been mixed at the wrong ratio or it may have not been mixed thoroughly resulting in localized areas of off ratio material Thorough Mixing When using a mechanical mixer to blend large batches of epoxy it is crucial to scrape the sides and bottom of the container to ensure thorough mixing Compensating for Temperature Effects on Epoxy Curing The cure and pot life information for PRO SET Resin Hardeners combinations are shown on the Technical Data Sheets Low temperatures can increase working time time to full cure and resin viscosity Higher resin viscosity due to low temperatures can cause pumps to meter off ratio It may be more difficult to thoroughly mix a very thick resin and hardener batch It may also be more difficult to wet out the fabric with very thick epoxy The extended cure time can leave the epoxy vulnerable to damage if clamping pressure is removed too early Higher temperatures will reduce working time cure time and resin viscosity The builder should carefully evaluate the working conditions size of job and number of workers in choosing the correct resin hardener combination 21 PRO SET EPOXY TESTING TERMINOLOGY AND METHODS PREPARATION OF TEST SPECIMENS All data is collected from unmodified mixed and cured epoxy Pure epoxy mixtures are used to eliminate the effect of fibres or filler All of the mechanical
26. e washed and sanded if it was not prepared with release fabric to provide the proper surface for mechanical secondary bond PRO SET Adhesive is a two part thixotropic epoxy adhesive designed for secondary bonding and assembly of composite components It cures fully at room temperature and it can be post cured if parts are to be assembled before they are post cured PRO SET laminating resins and hardeners can be used for tabbing and taping operations either before or after post cure Choose the resin and hardener combination that will provide the viscosity and cure speed combination necessary for the fabrics being used and to minimize drain out Surface preparation for paint Wet sand the surface to remove any flaws and provide a texture for the paint to key into If you are using a filling or sandable primer use 100 grit paper Use 220 320 grit paper if no primer is used The thinner the paint film thickness the finer the grit of sandpaper needed Rinse the surface with clean water and dry thoroughly Rinse water should sheet without beading up or fisheyeing which could be a sign of local contamination Re wash with solvent if necessary and wet sand Allow the surface to dry thoroughly before painting PRO SET Epoxies provide an excellent base for most paint systems Linear polyurethane paints have proven to be the most durable protection over epoxy Regardless of the paint system used thorough preparation of the surface is essential for
27. es and rapid order fulfillment at competitive prices This guide provides an overview of the PRO SET products with a comparison of resin and hardener handling characteristics and cured properties and a general PRO SET Epoxy Handling Guide Refer to the specific combined Resin Hardener Technical Data Sheets for detailed handling ratio mechanical and thermal property information Custom Formulation PRO SET can formulate custom resin and hardener systems tailored to your specific processes and performance needs working closely with you throughout the development of your custom formulation Turnaround times are generally rapid with only slightly extended lead times required once your custom formulation is placed into production PRO SET custom formulations usually require minimum volumes and these products are typically made available under our Custom Formulations category unless the customer specifies them as proprietary Pot Life Working Time minutes 300 LAMINATING EPOXIES Lamination Hardener Blend Profile T T T T T LAM 125 Working Time eu LAM 135 Working Time LAM 135 500g Pot Life at 22 C N e e LAM 125 500g Pot Life at 22 Slow hardener LAM 229 Medium hardener LAM 226 pr e e 100 LAM 224 100 LAM 237 Hardeners may be blended for targeted cure time PRO SET Laminating Epoxies
28. failure The change in sample length is measured with an extensometer The point at which the sample fails is the Tensile Elongation Tensile Modulus describes the amount of elongation strain that results from a specific amount of stress This property is essentially the stiffness of the material During the Tensile Strength test elongation is measured and recorded at the corresponding stress before the material yields The stress divided by the strain equals the modulus or the slope of the stress strain curve PRO SET User Manual amp Product Guide GARC built by Hodgdon Defense Composites Flexural Strength is a measurement of the maximum amount of bending stress a sample can withstand before fracturing The sample is simply supported at each end and an increasing load is applied in the centre The stress caused by bending is calculated and the amount that results in failure is recorded Flexural Modulus is calculated by measuring the deflection of a beam during the Flexural Strength test In a manner similar to the calculation of Tensile Modulus the deflection and stress are used to determine the Flexural Modulus Lap Shear Strength measures the strength of an epoxy bonded joint when loaded in shear The test is performed by bonding two metal coupons together with an overlap and then pulling them apart in tension in a test machine The tensile force creates a shear force in the bond line and the resulting stress is reported as the L
29. g characteristics post cure information and cured physical properties Combining PRO SET Epoxy resin and hardener starts a chemical reaction that gradually changes the mixed ingredients from a liquid to a solid Careful measuring and thorough mixing are essential for a complete reaction to occur Dispensing Most problems related to curing of the epoxy can be traced to either inadequate mixing or the wrong ratio of resin and hardener To simplify metering we recommend using calibrated pumps to dispense resin and hardener The PRO SET 307 High Capacity Positive Displacement Pump is calibrated to dispense the proper working ratio of all PRO SET liquid Resin Hardener combinations 14 Production quantity dispensing systems are available from several manufacturers Contact the technical staff for recommendation Before you use the first mixture on a project verify that the pumps are delivering the proper ratio Refer to the verification procedure in the instructions that come with the pumps Recheck the ratio periodically or anytime you experience problems with curing Production facilities should check pump ratios on a regular basis To measure by weight or volume refer to the PRO SET Resin Hardener Technical Data sheets or hardener label for the correct resin to hardener ratio Mixing Mixing epoxy with error free results involves three separate steps 1 Dispense the proper proportions of PRO SET Resin and Hardener into a clean plasti
30. ide 13 thinner or alcohol Follow all safety warnings on solvent containers Clean hardener residue with warm soapy water DO NOT dispose of hardener in waste containing saw dust or other fine cellulose materials spontaneous combustion can occur 6 Dispose of resin hardener and empty containers safely Puncture a corner of the can and drain residue into the appropriate new container of resin or hardener Do not dispose of resin or hardener in a liquid state Waste resin and hardener can be mixed and cured in small quantities to a non hazardous inert solid CAUTION Pots of curing epoxy can get hot enough to ignite surrounding combustible materials and give off hazardous fumes Place pots of mixed epoxy in a safe and ventilated area away from workers and combustible materials Dispose of the solid mass only if cure is complete and the mass has cooled Follow local disposal regulations 7 PRO SET products are intended for use by professional or technically qualified persons only Regularly updated Safety Data Sheets SDS are available from your PRO SET distributor Refer to the SDS and product label for specific first aid procedures and product safety information For additional safety information contact Wessex Resins HANDLING PRO SET EPOXIES This section is intended to provide an understanding of the general handling characteristics of PRO SET Epoxies Refer to the PRO SET Resin Hardener Technical Data Sheets for specific handlin
31. ilicone and wax remover or acetone Wipe the surface with clean paper towels before the solvent dries Clean surfaces before sanding to avoid sanding the contaminant into the surface CAUTION Provide plenty of ventilation and follow all safety precautions when working with solvents 3 Drying Bonding surfaces must be as dry as possible for good adhesion If necessary accelerate drying by warming the bonding surface with hot air guns or heat lamps Use fans to move the air in confined or enclosed spaces Watch for condensation when working outdoors or whenever the temperature of the work environment changes 4 Sanding Sand non porous surfaces metal FRP laminate cured epoxy hardwoods etc thoroughly to obtain an abraded surface 80 grit aluminium oxide paper will provide a good texture for the epoxy to key into Be sure the surface to be bonded is solid Remove any flaking chalking or blistering before sanding Wear a dust mask Remove all dust after sanding Laminate surfaces can be textured by using release fabric during fabrication This may eliminate the need for additional sanding Secondary Bonding Secondary bonding operations include the bonding of structural members blocking or additional fabric reinforcing coating fairing or filleting to a previously cured or existing component Once the component has cured to a solid state a new application of epoxy will not chemically link with it so the surface of the component must b
32. indicating that the two materials are discharged in the correct ratio and thoroughly blended Dispense the adhesive as required PRO SET User Manual amp Product Guide Nk m Y RY jo 4 gt 3 Model 892 34 impregnator IMPREGNATORS PRO SET impregnators are designed with the custom fabricator or production shop in mind They can be completely disassembled and are easy to clean Epoxy is applied to the fabric as it passes through an epoxy bath and adjustable nip rollers control the epoxy content in the laminate Epoxy contents from 3596 to 5596 by weight are possible The epoxy content control available with these impregnators will reduce resin waste as well as speed up the laminating process With the resin dams in place even small tapes can be used with the large impregnators Each model is designed to handle a range of fabric sizes and weights VH399 Manual Impregnator We have developed an easy to use fabric impregnator for the boat manufacturer and repair yard These machines can save a tremendous amount of labour during the laminating process The operator can easily control the throughput speed and vary it as necessary to ensure wet out of the fabric The impregnators have a pair of nip rollers that function like the rollers of a wringer washing machine However these rollers have an adjustable gap which allows a controlled amount of resin to stay on the PRO SET User Manual amp Product Guide
33. io and thoroughly blending them helps ensure consistent high quality results To a lesser extent problems may also arise from not properly compensating for changes in temperature It is important to understand how changes in temperature can affect the cure characteristics of epoxy and how to counteract those effects Proper Mix Ratio PRO SET pumps are designed to meter the correct ratio of resin and hardener for standard PRO SET combinations With any metering system a frequent check of the pump ratio is recommended You can use graduated containers to check the metered volume or a scale to check the ratio by weight If the ratio is not within the acceptable range for the products you are using corrective action must be taken Re check the ratio anytime you experience problems with curing Production facilities should check pump ratios on a regular basis PRO SET User Manual amp Product Guide Luis and Clark carbon fibre violin Epoxy Ratio and Hardness Each resin hardener combination will achieve optimum working cure and mechanical properties at a specific mix ratio Refer to the Technical Data Sheets for the acceptable range for the resin hardener combination you have chosen If the actual mix ratio deviates from this ratio range the physical properties of the resin system will decline as the ratio deviates from the acceptable range To check the cure of the epoxy we use the ASTM D 2240 method for Rubber Property Durometer Har
34. is used to measure viscosity A spindle rotates in the epoxy to measure its resistance A thicker fluid will give the spindle more resistance indicating a higher viscosity Since temperature will affect the viscosity we provide data points at different temperatures as well as graphs that provide viscosity data over a wide range of temperatures Manufacturing process and processing temperature are important considerations when determining the required mixed epoxy viscosity Infusion processes often require very low viscosity to enable good flow whereas a wet layup may require a higher viscosity that allows thorough fabric wet out yet prevents drain out Thix Index or Shear Thinning Index is a ratio determined by viscosity measurements taken at 10 and 100 RPM The low speed reflects how epoxy will flow undisturbed The high speed measurement indicates how well it will flow when shear force is applied as is often the case during processing Mix Ratio is the target ratio of resin to hardener required to achieve published properties and may be different by weight and volume due to the differing densities of the resin and hardener Every resin hardener combination has an optimal target and acceptable range Please note that the target is often not in the middle of the acceptable range PRO SET User Manual amp Product Guide Achieving the correct mix ratio can be simplified by using PRO SET Dispensing Equipment Density is the mass divided by v
35. nate print through may occur Observe the following guidelines to avoid thermal shock during the post cure cycles 1 Increase the temperature from room temperature at a rate of 8 11 C per hour 2 At every 22 C increase in temperature hold that temperature for an extra hour to allow interior laminate temperatures to equalise Resume the temperature increase of 8 11 C per hour 3 Continue this cycle until the post cure target temperature is reached 4 Hold the target temperature for a minimum of 8 hours other than when LAM 251 HT hardener is used The physical and thermal properties of the component will continue to improve until 10096 of the potential properties are reached Lower target temperatures require longer post cure times to reach 100 5 Decrease the temperature at a rate of 11 C per hour 6 Hold at 35 C for two hours to allow for normalisation 7 Turn off heat and allow to cool to room temperature This schedule is recommended when curing a lighter laminate The temperature ramp speed should be decreased for moulds plugs and heavy laminates We recommend building test panels of the finished laminate schedule to determine the ideal post cure cycle Thermocouple wires embedded in the test laminate will measure the temperature lag during the post cure PRO SET User Manual amp Product Guide Heating Methods Post cure heating techniques vary depending on the size of the component and mould the number of comp
36. ng fixture and a cyclical load is applied The temperature of the sample is increased and the change in the deflection is measured As the temperature is increased during the test the response of the sample changes The sample s response is plotted using three different graphs based on how the bending energy is transferred into the sample storage modulus loss modulus and the tan delta Storage Modulus is the elastic response The recovered part of the energy originally put into the sample Loss Modulus is the energy that is absorbed by the sample due to friction and internal motion Tan Delta is the ratio of loss modulus to storage modulus the dampening character of the sample When epoxy is below its Tg the storage modulus is high and the loss modulus is low The sample releases energy efficiently and does not absorb energy well due to its stiffness When the sample gets closer to its Tg the storage modulus decreases Energy is now absorbed into the sample driving the loss modulus higher Tg Onset Storage Modulus is a conservative value indicating a measured loss of stiffness 24 Tg Peak Tan Delta is the highest measured Tg value Tg DSC Onset First Heat While a DMA measures thermal properties of a sample via mechanical means a Differential Scanning Calorimeter DSC machine measures the heat flow in and out of a sample to determine its Tg This test is conducted by placing a fully cured sample into a small pan in the DSC an
37. oid distortion of the plug or plug surface while the mould is being post cured Check plugs for fairness after post curing and fair as necessary before the mould is fabricated Surface Preparation The success of secondary bonding depends not only on the strength of the epoxy but also on the ability of the epoxy to mechanically key into the surface of the material rather than chemically bond to it If you are bonding to a surface that has not been properly prepared with release fabric the following surface preparation steps are critical to any secondary bonding PRO SET User Manual amp Product Guide 1 Removing Amine Blush Amine blush is a by product of the epoxy curing process This wax like film may form during the initial cure phase The blush is water soluble and can easily be removed but can clog sandpaper and inhibit subsequent bonding if not removed To remove the blush wash the surface with clean water and an abrasive pad We recommend 3M Scotch brite 7447 General Purpose Hand Pads Dry the surface with plain white paper towels to remove the dissolved blush before it dries on the surface After washing with the abrasive pad the surface should appear dull Sand any remaining glossy areas with 80 grit sandpaper If a release fabric is used amine blush is removed when the release fabric is removed 2 Cleaning Surfaces must be free of any contaminants such as grease oil wax or mould release Clean contaminated surfaces with s
38. olume We conduct these tests at 25 C so that the density measurement in grams per cubic centimetre gcm is also equal to the specific gravity Hardness is a material s resistance to deformation This test is conducted with a Durometer utilizing the D scale A Durometer forces a metal point into the material and provides a numerical reading which corresponds to the resistance at the point The results of a hardness test are important for comparative purposes and determining the degree of cure MECHANICAL PROPERTIES Compression Yield strength is the stress required to cause plastic deformation Plastic deformation is the permanent change in shape or size of a solid body without fracture resulting from sustained stress beyond the elastic limit Cylinder shaped specimens are placed in a test machine that applies an increasing compressive force until plastic deformation weakens the sample The highest force recorded prior to deformation is the Compression Yield Strength Tensile Strength is the stress that is required to fracture the epoxy and cause a failure Dog bone shaped specimens are placed in a test machine that applies an increasing tensile force until failure The highest stress recorded prior to failure is the Tensile Strength Tensile Elongation also referred to as strain indicates how much the material can stretch before it fails Dog bone shaped samples are placed in a test machine that applies an increasing tensile force until
39. onents being built or on the resources available for space and equipment If resources are available a fully insulated oven with an electric or vented gas or oil heater provides the greatest control over post cure variables Radiant heaters that generate long wave infrared radiation can be used to heat the component without the use of an enclosure This post cure technique is often used on large components when space is limited or when a limited production does not justify the cost of an enclosure Temperature is monitored by surface mounted thermometers and the heaters are repositioned over the component as necessary to provide an overall post cure WARNING It is difficult to accurately control the rate of temperature change and maintain a uniform target temperature with radiant heating This may result in laminate that does not have uniform physical properties This technique may also result in more print through of the laminate Post Curing In Moulds Generally components are post cured in the mould in which they were laminated Moulds that are subject to repeated use should be post cured at a higher temperature than that required for the finished component This allows the part to be post cured in the mould at a temperature below the mould s HDT thereby avoiding distortion of the mould mould surface or the component during the component post cure Plugs used to build moulds should be post cured at higher temperatures than the mould to av
40. properties of the component or by the limits of the equipment to reach or hold a target temperature Thermal shock can induce flaws in the laminate To avoid this increase the temperature slowly and do not exceed the maximum target temperature Refer to the specific PRO SET Resin Hardener Data Sheet for information on post cure temperature and cured physical properties PRO SET User Manual amp Product Guide APPLICATION TECHNIQUES Primary Bonding Wet Lay Up PRO SET Laminating Epoxies are designed for primary bonding of composite materials like fibreglass carbon aramid and various core materials Fabrics may be wet out by hand or by roller impregnating machines Since each resin hardener combination will have a different viscosity test a combination for its suitability with a particular fabric and impregnating machine setup Fabrics recommended for use with PRO SET Epoxies should be classified as epoxy compatible Avoid fabrics with styrene soluble binders or that are compatible only with styrenated resins Vacuum Bag Laminating Vacuum bagging is an excellent clamping method for composite construction using PRO SET Epoxies Regulating the amount of vacuum pressure permits control of the resin fibre ratio and can produce a more dense laminate with a higher fibre volume Generally the higher the vacuum pressure the lower the resin content The optimum resin fibre ratio for a particular component will be between 3096 and 5096 A lower ra
41. rs mixed epoxy and sanding dust by wearing appropriate eye protection If contact occurs immediately flush the eyes with water under low pressure for 15 minutes Seek medical attention PRO SET Epoxies are recommended for use by experienced fabricators If you are new to high strength laminating epoxies read this guide thoroughly If you have additional questions about the handling or use of PRO SET Epoxies you are encouraged to contact the Wessex Resins Technical Staff We strongly recommend that you build representative panels using the proposed laminate schedule under expected workshop conditions to fully understand working characteristics and suitability of PRO SET Epoxies for your application Read all safety information before using PRO SET Epoxies SAFETY To use PRO SET Epoxies safely you must understand their hazards and take precautions to avoid them Avoid breathing concentrated vapours and sanding dust PRO SET Epoxies have low VOC content but vapours can build up in unvented spaces Provide ample ventilation when working with epoxy in confined spaces When adequate ventilation is not possible wear a HSC Health amp Safety Commission approved respirator with an organic vapour cartridge Provide ventilation and wear a dust mask when sanding epoxy especially uncured epoxy Breathing uncured epoxy dust increases your risk of sensitisation Although epoxy cures quickly to a sandable solid it may take over two weeks f NN
42. tio will result in a lighter composite A higher ratio will be heavier yet yield higher moisture exclusion effectiveness Various bleeder and absorber materials used in vacuum bag laminating can also influence the resin fibre ratio Building test panels is recommended to determine the proper vacuum bagging material schedule and vacuum pressure for a particular component Infusion PRO SET Infusion Epoxies are used for resin infusion VARTM RTM and other closed moulding applications Choose the resin hardener combination that will provide suitable gel time for the part and process Because of the many variables involved these techniques require testing to determine the most suitable procedure and the proper resin hardener combination for each part Release Fabric In areas where you plan to do secondary bonding or additional coatings use a release fabric such as peel ply over the layup When peeled from the cured or partially cured surface release fabric leaves a fine texture free of contaminates and amine blush After the laminate reaches initial cure and the release fabric is PRO SET User Manual amp Product Guide removed the laminate surface is ready for bonding without further preparation Using release fabric eliminates the need for washing and sanding in preparation for secondary bonding or coating A laminate may be built up in several consecutive layups over period of days Use release fabric after each day s lay up and remove it
43. ve has proved remarkably popular for bonding of teak General Purpose Adhesive Resin ADV 170 R decking Both the resin and hardener componets are thixotropic General Purpose Adhesive Hardener ADV 170 H pastes and the adhesive is avalible in a range of pack sizes Fast Adhesive No Colour ADV 175 273 NC Adhesives based on PRO SET 175 Resin are paired with Fast 273 Fast Adhesive Black ADV 175 273 BK Medium 275 or Slow 277 hardener They are suitable for most composite bonding applications Medium Adhesive No Colour ADV 175 275 NC Medium Adhesive Black ADV 175 275 BK PRO SET ADV 176 276 Toughened Adhesive delivers exceptional toughness and superior peel strength for heavily loaded Slow Adhesive No Colour ADV 175 277 NC applications and difficult to bond substrates including pre preg Slow Adhesive Black ADV 175 277 BK sheet moulding compound metals and most plastics Toughened Adhesive NO COI The PRO SET ADV 175 ADV 176 series of Assembly Adhesives Toughened Adhesive Black ADV 176 276 BK are packaged in 400 ml two component cartridges and in bulk container sizes and are available in No Colour NC and Black BK 6 PRO SET User Manual amp Product Guide ADV Combined Resin Hardener Selection DV 170 R AN He i ADV 175 ADV 175 ADV 175 ADV 176 Propert Standard Units General Resin ADV Resin ADV Resin ADV ADV 276 pary 273 Fast 275 Medium 277
44. y It is the portion of the cure time after mixing that the epoxy will remain in a liquid state and be workable The end of the working time marks the last opportunity to apply clamping pressure to an assembly and obtain a dependable bond 2 Initial Cure Phase The working time is over when the mixture passes into an initial cure phase and has reached a gel state It may be hard enough to be shaped with files or planes but too soft to dry sand Post cure heating may begin once the mixture has reached an initial cure 3 Final Cure Phase In the final cure phase the epoxy mixture has cured to a solid state and if not post cured will continue to cure over the next couple of weeks at room temperature Post curing at elevated temperatures will shorten the final cure phase of PRO SET Epoxies and is necessary for components requiring the best thermal properties Controlling Cure Time Several factors affect cure time and can be manipulated to extend the length of the cure time and working time 1 Type of Hardener Each resin hardener combination will go through the same cure phases but at different rates Choose the hardener that gives you adequate working time for the job you are doing at the temperature and conditions you are working under PRO SET Hardeners may also be mixed to provide a custom blend with an intermediate cure time Refer to the PRO SET Resin Hardener Technical Data Sheets to compare the curing and handling characteristics
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