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1. 42C ACR 42D ACR 43A ACR 43B ACR 43C ACR 43D ACR 44A ACR 44B ACR 44C ACR 44D ACR 45A ACR Hull data Keel data Fiberglass sandwich core data Minimum properties of sandwich laminate Minimum properties of single skin laminate Wood selection data Aluminum selection data Steel selection data Shell plating non fiberglass sandwich Shell plating fiberglass sandwich Shell plating in way of keel non fiberglass sandwich Shell plating in way of keel fiberglass sandwich Deck plating non fiberglass sandwich Deck plating fiberglass sandwich Cabin plating non fiberglass sandwich Cabin plating fiberglass sandwich Bulkhead plating non fiberglass sandwich Bulkhead plating fiberglass sandwich Tank plating non fiberglass sandwich Tank plating fiberglass sandwich Deck transverse non fiberglass Shell transverse non fiberglass Deck transverse fiberglass Shell transverse fiberglass Deck longitudinal non fiberglass Shell longitudinal non fiberglass Deck longitudinal fiberglass Shell longitudinal fiberglass Deck girder non fiberglass Shell girder non fiberglass Deck girder fiberglass Shell girder fiberglass Deck stringer non fiberglass Shell stringer non fiberglass Deck stringer fiberglass Shell stringer fiberglass Deck beam non fiberglass ABS Construct User Manual Version 1 0 Page 17 4AB ACR Rudder 51A ACR 51B ACR 52A ACR 53A ACR 5AA ACR Keel 61A2. AHL These mean special things to your DOS system and ABS CONSTRUCT If the file name you have chosen is already on disk ABS CONSTRUCT will warn you and ask if it is ok to erase the old file and write the new one over it Select your response by clicking either the YES or NO button with the mouse USE THIS FUNCTION OFTEN TO AVOID INPUT DATA LOSS DUE TO POWER FAILURE OR PROGRAM CRASH We don t plan on ABS CONSTRUCT crashing but YOU may be clever enough to find a way DIRECTORY You may use this menu item to display any set of files in any directory on your PC When you select this item a small window will appear with a suggested disk directory and the file mask If you select the ABS Construct User Manual Version 1 0 Page 7 OK button with the mouse every file in the directory will be listed If you choose to alter the directory path or the filename mask do so by selecting the desired field with the mouse and editing as described above SETUP This menu item allows the user to choose either metric or english units of measure date and turn on or off the click sound effects DATE This item may be edited by using the editing methods described above The day of the week will automatically change to match the input date and may not be edited UNITS Select either english or metric units by simply clicking the left mouse button when the mouse cursor is over this item The opposite units to those currently displayed will appe
3. a graphics screen showing the locations and dimesions of the internal member used to make the previous calculations You will also find the thickness of the shell as an input Any of these dimesions and input values may be changed by simply clicking the mouse cursor over the actual numbers to be changed The value will be highlighted if it is a valid user input Now edit the values as described above GIRDER Choosing this menu option allows the calculation of internal reinforcements This calculation requires the dimensions of the structural member itself and the local thickness of the plating material it attaches to When this selection is chosen you will be prompted to select either DECK or SHELL refinforcements Make your choice by clicking the appropriate button in the prompt window with the mouse You may select the opposite choice by simply reselecting the INTERNALS menu After choosing either DECK or SHELL you will see a set of calculations based upon default dimensions or the last entered dimensions of the internal member You may change or view these dimensions by clicking the mouse on the CALC button in the lower right corner of the screen This will present a graphics screen showing the locations and dimesions of the internal member used to make the previous calculations You will also find the thickness of the shell as an input Any of these dimesions and input values may be changed by simply clicking the mouse cursor over the actual num
4. in Bolt distances UNIT DESCRIPTION mm in Keel plating width along chord mm in Keel plating length along chord mm in Minimum distance chord to plating Correction factor for curve of plating mm in Minimum keel plating thickness ABS Construct User Manual Version 1 0 Page 23 B APPENDIX B This appendix describes the help files that are included in the ABS CONSTRUCT package Please consult the section on help files in this manual for further information MATR AHL FILE AHL PLAT AHL INTR AHL RUDD AHL OUTP AHL KEEL AHL Help file for material and material selection Help file for functions found under the FILES selection Help file for plating calculations and reports Help file for internals calculations and reports Help file for rudder calculations and reports Help file for report generation to printer or disk Help file for keel calculations and reports ABS Construct User Manual Version 1 0 Page 24
5. stock inside diameter Tube stock corresponding solid diameter TRUE tubular stock else FALSE Stock material form Bending moment at neck bearing Torque at neck bearing ABS Construct User Manual Version 1 0 Page 22 R16 10 4 R17 7 3 R18 7 3 R19 7 3 R20 7 3 R21 7 3 R22 7 3 R23 7 3 R24 7 3 R25 7 3 R26 7 3 R27 10 4 R28 10 4 R29 10 4 R30 10 4 R31 12 R32 10 4 R33 10 4 R34 10 4 R35 10 4 R36 3 Keel Bolts ID SIZE B1 10 4 B2 10 4 B3 10 4 B4 10 4 B5 10 4 B6 B45 10 4 Keel Shell ID SIZE C1 10 4 C2 10 4 C3 10 4 C4 10 4 c5 10 4 Total force on rudder Upper rudder length Lu Mid rudder length L Length centerline to center of area Lc Bottom rudder length LI Length leading edge to centerline XI Height of rudder H Height between bearings Ha Height neck bearing to rudder bottom Hb Width of bearing W Projected area of rudder Diameter of stock in bearing Rudder bearing length Max allowable pressure at neck bearing Max allowable pressure at carrier bearing Rudder bearing type description Minimum rudder bolt diameter Min ult tensile str of bolt material Min Yield strength of bolt material Pitch circle radius of coupling bolts Number of rudder coupling bolts UNIT DESCRIPTION mm in Keel bolt minimum diameter kg Ibs Keel weight for keel bolt use mm in vertical distance from center of gravity Ksmm psi minimum yield strength of bolt material mm in Summation of bolt distances mm
6. 4 Ksmm psi Actual compressive strength inside skin F8 10 4 Ksmm psi Actual compressive modulus outside skin FQ 10 4 Ksmm psi Actual shear strength perpendicular to warp F10 10 4 Ksmm psi Actual shear strength parallel to warp F11 10 4 Ksmm psi Actual shear modulus parallel to warp F12 10 4 Ksmm psi Actual interlaminar shear strength F13 10 4 Ksmm psi Min flexural strength F14 10 4 Ksmm psi Min flexural modulus F15 10 4 Ksmm psi Min tensile strength outside skin F16 10 4 Ksmm psi Min tensile modulus inside skin F17 10 4 Ksmm psi Min compressive strength inside skin F18 10 4 Ksmm psi Min compressive modulus outside skin F19 10 4 Ksmm psi Min shear strength perpendicular to warp F20 10 4 Ksmm psi Min shear strength parallel to warp F21 10 4 Ksmm psi Min shear modulus parallel to warp F22 10 4 Ksmm psi Min interlaminar shear strength F23 40 Laminate core description F24 10 4 Km3 Lf3 Core density F25 10 4 Ksmm psi Core minimum ultimate shear strength F26 10 4 mm in Core thickness F27 10 4 mm in Laminate outside skin thickness F28 10 4 mm in Laminate inside skin thickness F29 10 4 cm3 in3 Section modulus of outside skin F30 10 4 cm3 in3 Minimum section modulus of outside skin F31 10 4 cm3 in3 Section modulus of inside skin F32 10 4 cm3 in3 Minimum section modulus of inside skin F33 10 4 cm4 in4 Moment of inertia of laminate F34 10 4 cm4 in4 Minimum moment of inertia of laminate F35 10 4 mm in Average of core and over
7. ABS CONSTRUCT USERS MANUAL VERSION 1 2 Copyright C 1989 Vacanti Yacht Design All rights reserved No part of this manual may be used or reproduced in any form or by any means without prior written permission from Vacanti Yacht Design Disclaimer The material in this manual is for informational purposes only The contents and the product it describes are subject to change without notice Vacanti Yacht Design makes no representations or warranties with respect to this manual In no event shall Vacanti Yacht Design be liable for any damages direct or incidental arising out of or related to the use of this manual 1 STARTING THE ABS CONSTRUCT PROGRAM The Main Screen When you first start the ABS CONSTRUCT program you are presented with a graphics screen with several different items being displayed First of all along the top of the screen is the menu bar This is the area where all of the program functions are selected from Try pointing the mouse the arrow on the screen over one of the words on that top line and press a button on your mouse What you should see is a list of menu selections drop down below the text that you selected with the mouse These items are also selectable by the mouse and control the multiple functions of the ABS CONSTRUCT program Try for example this set of operations Place the mouse over the FILES selection and press a mouse button You should see the FILES option menu drop down Now move the mouse down
8. ACR 61B ACR 62A ACR Shell beam non fiberglass Deck beam fiberglass Shell beam fiberglass Bulkhead non fiberglass Bulkhead fiberglass Tank non fiberglass Tank fiberglass Floor non fiberglass Floor fiberglass Effective width of plating non fiberglass Effective width of plating fiberglass Stock diameter spade rudder solid stock Stock diameter spade rudder tubular stock Rudder bearings Rudder bolts Spade rudder dimensions Keel bolts Sum of transverse distances keel bolts Keel shell Headers and Footers HEADER ACR Report header and footer description Report Variables This section describes the variable fields that are available for use in generating reports from ABS Construct Units Text to place in reports as unit descriptors If english units are being used the first value indicated will be returned otherwise the second value is returned for metric units ID SIZE DESCRIPTION U1 6 English TRUE metric FALSE U2 6 Lbs Kg U3 6 In mm U4 6 Psi Ksmm U5 6 English Metric U6 6 Ft m U7 6 Lb ft3 Kg m3 U8 6 In cm U9 6 Tons Mtons U10 6 Psi Kg cm2 ABS Construct User Manual Version 1 0 Page 18 Report Variables Please note that the letter O is used as the first letter in the ID of these variables not the number 0 ID SIZE DESCRIPTION O1 3 Report page number O2 3 Number of lines per page O3 3 Printer number O4 25 Output re
9. Data ID SIZE UNIT DESCRIPTION P1 4 Plating selection number P2 10 4 mm in Minimum thickness of plating P4 10 4 mm in Spacing between support members P5 10 4 mm in Chord length along support member P6 10 4 m ft Design head from table 7 1 ABS manual P7 10 4 Design reduction factor tables 7 4 7 5 P8 10 4 Plate panel aspect coefficient P9 10 4 Ksmm psi Design stress PO 10 4 Correction factor for curved plating P11 10 4 mm in Max chord height between support members P12 10 4 m ft Distance bulkhead to deck at centerline P13 10 4 m ft Distance to top of tank overflow P14 10 4 m ft Position aft of foreward end of LOA P15 10 4 m ft Position above lowest point of canoe hull P16 10 4 Plate panel aspect coefficient FRP panel P17 10 4 Ksmm psi Laminate design stress P18 10 4 Laminate design head reduction factor P19 10 4 Laminate plate panel aspect ratio ABS Construct User Manual Version 1 0 Page 21 Internals Data 134 SIZE 10 4 10 4 10 4 10 4 10 4 10 4 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 UNIT DESCRIPTION m ft Position above lowest point of canoe hull m ft Position aft of foreward end of LOA m ft Girth distance from position to centerline m ft Girth distance from gunwale to centerline m ft Spacing of internal m ft Distance between support points Number of floors in way of keel m ft Bulkhead distan
10. acters can cause your printer to write strange text and or graphics ruining your report ABS Construct User Manual Version 1 0 Page 5 Hidden printer control sequences can be placed in the body of a report outline This can be handy for underlining bold print italics even graphics ABS Construct will not strip these characters from the report outline Consult your printer manual for further details on this matter The report system also includes a special file named HEADER ACR It contains the header and footer text to be placed on the formatted report The value on the first line of the file is the number of lines in the header area The maximum number of lines in the header is 10 The second line contains the number of lines in the footer area The maximum number of lines in the footer is 5 The following lines contain the header and footer text and should match the count given in the first two lines Please by all means edit this file to include any pertinent information about your company 4 FILE OPTIONS HULL DATA When ABS CONSTRUCT begins it automatically loads a file called DEFAULT ABS This file contains hull dimensions and other data that the user input the last time you used ABS CONSTRUCT If you do not select the HULL DATA item calculations will be done based on hull dimensional data supplied in the DEFAULT ABS file Other HULL DATA files can be opened by selecting the LOAD ABS DATA menu item The user should assign a new
11. all thickness F36 10 4 mm in Min average of core and overall thickness F50 10 4 mm2 in2 Area of inside skin of modulus section F51 10 4 mm2 in2 Area of outside skin of modulus section F52 10 4 mm2 in2 Area of core of modulus section F53 10 4 mm2 in2 Area of modulus section F54 10 4 mm in Axis of inertia modulus section F55 10 4 cm4 in4 Moment of inertia inside skin F56 10 4 cm4 in4 Moment of inertia outside skin F57 10 4 cm4 in4 Moment of inertia core section F58 10 4 mm in Distance to axis inside section F59 10 4 mm in Distance to axis outside section F60 10 4 mm in Distance to axis core section ABS Construct User Manual Version 1 0 Page 20 Wood Data ID SIZE UNIT DESCRIPTION Wood form number Wood form description Wood name Specific gravity of wood Ksmm psi Bending modulus of rupture Ksmm psi Bending modulus of elasticity Ksmm psi Tensile strength perpendicular to grain Ksmm psi Compressing strength parallel to grain UNIT DESCRIPTION Aluminum alloy name Aluminum stock description Ksmm psi Minimum ultimate tensile strength welded Ksmm psi Minimum yield strength unwelded Ksmm psi Minimum yield strength welded W1 3 W2 12 W3 40 W4 7 2 W5 10 4 w6 10 4 W7 10 4 ws 10 4 Aluminum Data ID SIZE A1 40 A2 40 A3 10 4 A4 10 4 A5 10 4 Steel Data ID SIZE UNIT DESCRIPTION S1 40 Steel grade description S2 10 4 Ksmm psi Minimum ultimate tensile strength S3 10 4 Ksmm psi Minimum yield strength Plating
12. ar It is important that we cover a peculiarity of the ABS CONSTRUCT software at this point Because the ABS Guide itself gives no proper method of translating from english rule to metric and back ABS CONSTRUCT does not translate input or calculated data between these two forms Because of this anytime that units are switched all data must be re entered using the new units This includes the selection of material data We trust that you will do most of your work in either english or metric and will never be faced with this task SOUND Turn the sound effects on or off by clicking the left mouse button when the cursor is over the ON OFF button QUIT When this item is chosen ABS saves the last data input values into the file DEFAULT ABS and returns the user to DOS When the program is next used these input data values will be read back into ABS CONSTRUCT They can be replaced by selecting the LOAD ABS DATA menu item as described above 5 MATERIAL SELECTION General information on material The construction material currently being used to make calculations is shown in the bar along the screen bottom along with the current data file and the units of measure ABS CONSTRUCT contains a complete list of all of the material strength characteristics found in the American Bureau of Shipping Scantling Rules for Offshore Racing Yachts handbook Material strengths for Fiberglass core materials aluminum sheet and stock wood species and steel sheet a
13. ations You will also find the thickness of the shell as an input Any of these dimesions and input values may be changed by simply clicking the mouse cursor over the actual numbers to be changed The value will be highlighted if it is a valid user input Now edit the values as described above 8 RUDDER CALCULATIONS STOCK Choosing to make rudder stock shaft calculations will cause ABS construct to prompt you to select either solid or tubular shaft material in a small data window Make your selection by clicking the YES or NO button with the mouse You will now see a calculation window that is based on the last dimensions of the rudder that were entered You may edit any of the input data in this calculation window by clicking the mouse on any number that is a valid input and editing as described above ABS Construct User Manual Version 1 0 Page 13 Changing RUDDER Dimensions You may view or edit the current rudder dimensions by clicking the DIMENSIONS button in the upper right corner of the calculation window ABS CONSTRUCT will then display a graphic drawing of a typical rudder with the definitions of each dimesion displayed You may edit any input value by clicking on the number with the mouse and editing it as described above Returning to the Calculation window You may now view the results of any dimesional changes by clicking the CALC button in the upper right hand corner of the window You will be returned to the original window and
14. bers to be changed The value will be highlighted if it is a valid user input Now edit the values as described above STRINGER Choosing this menu option allows the calculation of longitudinal fore and aft internal reinforcements This calculation requires the dimensions of the structural member itself and the local thickness of the plating material it attaches to When this selection is chosen you will be prompted to select either DECK or SHELL refinforcements Make your choice by clicking the appropriate button in the prompt window with the mouse You may select the opposite choice by simply reselecting the INTERNALS menu After choosing either DECK or SHELL you will see a set of calculations based upon default dimensions or the last entered dimensions of the internal member You may change or view these dimensions by clicking the mouse on the CALC button in the lower right corner of the screen This will present a graphics screen showing the locations and dimesions of the internal member used to make the previous calculations You will also find the thickness of the shell as an input Any of these dimesions and input values may be changed by simply clicking the mouse cursor over the actual numbers to be changed The value will be highlighted if it is a valid user input Now edit the values as described above BEAMS Choosing this menu option allows the calculation of internal reinforcements This calculation requires the dimensions of the
15. ce by clicking the appropriate button in the prompt window with the mouse You may select the opposite choice by simply reselecting the INTERNALS menu After choosing either STRUCTURAL or TANK you will see a set of calculations based upon default dimensions or the last entered dimensions of the internal member You may change or view these dimensions by clicking the mouse on the CALC button in the lower right corner of the screen This will present a graphics screen showing the locations and dimesions of the internal member used to make the previous calculations You will also find the thickness of the shell as an input Any of these dimesions and input values may be changed by simply clicking the mouse cursor over the actual numbers to be changed The value will be highlighted if it is a valid user input Now edit the values as described above FLOORS Choosing this menu option allows the calculation of transverse athwartships internal reinforcements This calculation requires the dimensions of the structural member itself and the local thickness of the plating material it attaches to You will see a set of calculations based upon default dimensions or the last entered dimensions of the internal member You may change or view these dimensions by clicking the mouse on the CALC button in the lower right corner of the screen This will present a graphics screen showing the locations and dimesions of the internal member used to make the previous calcul
16. ce to deck or tank overflow cm3 in3 cm3 in3 cm3 in3 cm3 in3 cm4 in4 cm4 in4 cm4 in4 cm4 in4 mm in Minimum section modulus clear of keel Minimum section modulus in way of keel Floors section modulus clear of keel Floors section modulus in way of keel Minimum moment of inertia clear of keel Minimum moment of inertia in way of keel floors moment of inertia clear of keel floors moment of inertia in way of keel Effective width of plating Variable C section 8 1 3 of ABS manual Same as above for floors at centerline Design head from table 8 1a of ABS manual Ksmm psi Design stress from table 8 2 of ABS manual Centerline reduction N section 8 1 3 cm3 in3 Increase in section modulus in way of keel Inertia Ci section 8 1 3 Ksmm psi Modulus of elasticity Floor inertia Ci section 8 1 3 mm in mm in mm in mm in mm in mm in mm in Rudder Data ID SIZE UNIT 10 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 10 4 6 6 10 4 10 4 Effective width of plating at opening Stiffener flange thickness Stiffener side thickness Stiffener crown width Stiffener base width Stiffener height Stiffener flange width DESCRIPTION Stock minimum ultimate tensile strength Stock minimum ultimate yield strength Lift coefficient of rudder Estimated hull displacement Min stock diameter at neck bearing Min stock diameter at carrier bearing Min stock diameter at rudder bottom Tubular stock outside diameter Tubular
17. clicking the left mouse button one or more times over the construction method button After verifying the wood data and construction method you may select from the PLATING or INTERNALS menus to make calculations You may switch among many wood species to compare required scantling thicknesses by reselecting the MATERIAL menu ABS Construct User Manual Version 1 0 Page 9 ALUMINUM If you select this material for construction ABS CONSTRUCT will pop up a window Isiting several standard grades of aluminum materials You may select one by moving the mouse until the highlight bar is over the desired material Click the left mouse button once and the characteristics of this aluminum alloy will be read in A window containing the aluminum strengths will be displayed on screen You may now select the PLATING or INTERNALS calculations by selecting from those menus STEEL If you select this material for construction ABS CONSTRUCT will pop up a window listing several standard grades of steel material You may select one by moving the mouse until the highlight bar is over the desired material Click the left mouse button once and the characteristics of this steel alloy will be read in A window containing the steel strengths will be displayed on screen You may now select the PLATING or INTERNALS calculations by selecting from those menus 6 PLATING CALCULATIONS SHELL Choosing this menu item causes ABS CONSTRUCT to calculate the thickness and st
18. current CABIN location and spacings of reinforcements by editing these values as described above BULKHEAD Choosing this menu item causes ABS CONSTRUCT to calculate the thickness and strengths of the bulkhead plating at a default hull location using the currently selected material and strengths and the HULL dimensions found in the HULL DATA file You may alter the current BULKHEAD location and spacings of reinforcements by editing these values as described above TANKS Choosing this menu item causes ABS CONSTRUCT to calculate the thickness and strengths of the shell at a default hull location using the currently selected material and strengths and the HULL dimensions found in the HULL DATA file You may alter the current TANK location and spacings of reinforcements by editing these values as described above 7 INTERNALS CALULATIONS TRANSVERSE Choosing this menu option allows the calculation of transverse athwartships internal reinforcements This calculation requires the dimensions of the structural member itself and the local thickness of the plating material it attaches to When this selection is chosen you will be prompted to select either DECK or SHELL refinforcements Make your choice by clicking the appropriate button in the prompt window with the mouse You may select the opposite choice by simply reselecting the INTERNALS menu After choosing either DECK or SHELL you will see a set of calculations based upon default dim
19. e or selecting the KEEL DATA item from the FILE menu list and changing the basic keel dimensions 10 HELP FILES Under the main menu selection HELP you will find a list of subjects with help files available Selecting one of these subjects will display the associated text file These files are listed in Appendix B These files contain much of the information found in this manual If you have any information you may want to add to these files feel free to do so There are some important points to keep in mind when you are editing these files First of all remember to always save the files ina NON FORMATTED mode meaning there are no word processor formatting characters imbedded in the text Secondly never allow a line to be longer than 79 characters which would cause the text to wrap around the screen and disrupt the help file display ABS Construct User Manual Version 1 0 Page 16 A APPENDIX A This section contains information regarding the report files and the report variables Report Files The following is a list of the report files that are included with the ABS CONSTRUCT package Please refer to the report section of this manual for an explanation of their use Files 11A ACR 12A ACR Material 21A ACR Plating 31A ACR 31B ACR 32A ACR 32B ACR 33A ACR 33B ACR 34A ACR 34B ACR 35A ACR 35B ACR 36A ACR 36B ACR Internals 41A ACR 41B ACR 41C ACR 41D ACR 42A ACR 42B ACR
20. een Next you will be prompted to choose either multidirectional or single directional laminate The most common method is multidirectional with layers of glass cloth placed at 45 or 90 degree angles to one another Single directional layers typically use high strength materials such as carbon fiber You will now be shown a list of material strengths that correspond to the general fiberglass characteristics listed in the ABS handbook You may change any of these values by clicking the left mouse button on the numbers themselves and editing them as described above Once you have chosen FIBERGLASS as a material and edited the strength values you may select any entry from the PLATING menu to calculate hull thickness requirements anywhere on the hull WOOD ABS CONSTRUCT allows the choice of several wood species and construction methods in wood When WOOD is chosen as a material ABS CONSTRUCT will pop up a list of wood species and material strengths Move the highlight bar over the desired wood species by moving the mouse Click the left button once over the material you desire Please note that not all wood species have all material strengths docmented We have entered only those values stated in the ABS handbook You may input these values by editing the wood data file as described above After making your wood species selection you will be shown a wood data window You may select among Carvel Plywood or or Cold Molded construction methods by
21. em perhaps after looking through available files using the DIRECTORY menu item When this menu item is selected ABS CONSTRUCT displays the current keel data on the screen Any of the keel dimensions may be changed by using the data editing methods described above These changed values will be saved in the original file wnen the SAVE ABS DATA menu item is selected When the values have been changed or reviewed you may continue making calculations by selecting KEEL PLATING etc from the main menu list The calculations and reports that follow will use the newly entered keel data ABS Construct User Manual Version 1 0 Page 6 LOAD ABS DATA When this menu item is selected a small window will open and present the name of the last ABS data file to be loaded by ABS CONSTRUCT You may accept this file name by placing the mouse over the OK button and pressing the left mouse button once You may enter a new file name by placing the mouse cursor over the file name a pressing the left mouse button once The file name will be highlighted and may be edited as described above The new file can then be loaded by selecting the OK button with the mouse RAPID FILE SELECT You may review all of the available input data files and select the desired one with a mouse by replacing the suggested file with a filename containing a DOS wildcard character If the filename contains a character or a character ABS CONSTRUCT will display all of the files i
22. en above An important note here the keel weight is copied from the master keel weigh value found in the keel definition under FILES Changing this value will not effect the overall definition of the keel which allows you to experiment with this value and its effect on the keel bolt diameter Summing the keel bolt distances ABS Construct User Manual Version 1 0 Page 14 You may calculate the sum of the keel bolt distances from centerline by clicking the SUM PANEL button in the bottom center of the calculation window A window to the right of the main calculation window will open and will allow the entry of up to 40 keel bolt locations distance from keel centerline You may enter values at any position and edit them in any order by clicking on the numbers with the mouse cursor You may also use the arrow keys and the ENTER key to move around Each time a value is entered press ENTER after all digits are in place the required keel bolt diameter will be recalculated in the main calculation window to the left You may erase the SUM PANEL by clicking on the OK button in the upper right hand corner of the SUM PANEL ABS Construct User Manual Version 1 0 Page 15 SHELL When this menu item is selected a calculation window will appear and show the plating thickness required to cover a keel with internal ballast Fiberglass shell etc You may change any of the input data values by clicking on them with the mouse and editing them as described abov
23. ensions or the last entered dimensions of the internal member You may change or view these dimensions by clicking the mouse on the CALC button in the lower right corner of the screen This will present a graphics screen showing the locations and dimesions of the internal member used to make the previous calculations You will also find the thickness of the shell as an input Any of these dimesions and input values may be changed by simply clicking the mouse cursor over the actual numbers to be changed The value will be highlighted if it is a valid user input Now edit the values as described above LONGITUDINAL Choosing this menu option allows the calculation of Longitudinal fore and aft internal reinforcements This calculation requires the dimensions of the structural member itself and the local thickness of the plating material it attaches to ABS Construct User Manual Version 1 0 Page 11 When this selection is chosen you will be prompted to select either DECK or SHELL refinforcements Make your choice by clicking the appropriate button in the prompt window with the mouse You may select the opposite choice by simply reselecting the INTERNALS menu After choosing either DECK or SHELL you will see a set of calculations based upon default dimensions or the last entered dimensions of the internal member You may change or view these dimensions by clicking the mouse on the CALC button in the lower right corner of the screen This will present
24. file name for each hull design he chooses to analyze To easily create hull data for a sistership select the file of the original hull using the LOAD ABS DATA menu item modify the values and save it with a new name using the SAVE ABS DATA menu item The original hull data will not be changed A list of available hull data files can be viewed by selecting the DIRECTORY menu item View Modify the hull data Hull data may be modified and viewed at any time by first selecting the HULL DATA menu item ABS CONSTRUCT will display a list of hull dimensions which may be modified by placing the mouse over an item and clicking the left mouse button once A highlight bar will appear over the value and the cursor placed at the left most edge of the value A new value may be entered using the editing methods described above Pressing ENTER will accept the new value Now when you select a calculation function such as PLATING KEEL etc the new hull dimensions will be used At the top of the HULL data list are three lines of text that are intended to hold short notes about the hull design This data is for your future reference containing serial numbers or general descriptions and is not used in any calculations KEEL DATA When ABS CONSTRUCT begins it loads a file called DEFAULT ABS it contains keel dimensional data for the last hull keel analyzed by ABS CONSTRUCT The user may select keel data from other hull files by selecting the LOAD ABS DATA menu it
25. g used Next to the right is the area indicating the route of the report being used If the report is being sent to a printer the port name is displayed If the report is being sent to a file the filename of the report is displayed When ABS CONSTRUCT is first loaded this area is blank but will be filled when the report session is started To the far right is text indicating which mode of measure is being used METRIC or ENGLISH Further instructions in this document will describe how to change these values 2 EDITING WITH MOUSE AND KEYBOARD Editing input data values ABS CONSTRUCT uses a very helpful input data editing scheme designed to allow quick changes to input data values Any item on the screen that may be edited is selected by placing the mouse cursor over the numbers or text and pressing the left mouse button once If the data can be changed by keyboard input a highlight bar will appear If the highlight bar does not appear either the tip of the mouse cursor was not over the data value or the item may not be edited Changing one or more digits When the highlight bar appears the cursor will be placed in the far left end of the input space The cursor may be moved by using the space bar or the left right arrow keys Place the cursor under the single number to change and enter a new value Press the ENTER key to make the change permanent ABS Construct User Manual Version 1 0 Page 2 Changing entire value With the curs
26. n the current directory that match the wildcard name When this is complete a highlight bar will be displayed and will move over the file names as the mouse is moved Place the highlight over the desired file name and press the left mouse button once The ABS data in the file will be read Calculations and reports generated after this will be based upon the data from the new file LOAD PROLINES DATA This function will be added in the future and is not available at this time SAVE ABS DATA When the user quits ABS CONSTRUCT the program will automatically save all of the last input data values in a file called DEFAULT ABS The user is encouraged to save data from each hull design in a new file by using this menu item SAVE ABS DATA When this item is selected a small window will open and suggest a file name to save the input data under To accept this file name place the mouse cursor over the OK button and press the left button once To create a sistership file or a new data file place the mouse cursor over the file name and press the left button once Now edit the file name as described above To accept this new file name select the OK button with the mouse We STRONGLY suggest that you use a common filename extension such as ABS for all of your ABS data file names This will make the files easier to find when using the DIRECTORY menu item and will be easier to identify Try not to use extensions such as EXE COM SYS ACR or
27. or at the far left position of the data input space enter one or more new digits As long as there is a space between the new values and the previous data value the new value will completely replace the old value after pressing the ENTER key It is important to remember that if there is no space between the new and old digits ABS CONSTRUCT will accept ALL of the digits as the new value To avoid this enter a space after the last digit entered by pressing the space bar and press the ENTER key Special Function Keys Several keys have special functions when editing in an ABS CONSTRUCT window All cursor keys are functional The left and right cursor keys move the input cursor in the current field being edited The up and down cursor keys move through the selectable fields on the window in their respective directions Home and end also perform their functions in the current field moving the input cursor to the first or last position of the field Delete Del deletes from the current character in the field while backspace lt deletes over the previous character in the field The function key F1 deletes all text in the current field ABS Construct User Manual Version 1 0 Page 3 3 REPORTS The OUTPUT Menu Item ABS CONSTRUCT allows output to generated either in printed or disk ASCII file form that may be edited by a word processor You may use the file based version to conserve paper and to generate professional looking reports for clien
28. orter or longer print media in your printer you can change the value of the number of text lines per page for proper header and footer formatting The standard number of lines per page on an 11 page is 66 The page number to start reporting at can also be manipulated so extra information can be added to an already completed report Turning the formatting off means no page numbers headers footers or page jumps are generated Once the report system has been activated any window that will generate a report will show an asterisk in the upper left hand corner By selecting this asterisk with the mouse the report for the current window is created and sent to the printer or disk Ending the Report Session Under the main menu selection Output the selection No Report will stop the report generation session Report Creation When the report session has been activated the reporting system of ABS Construct works on a simple principle The user that s you selects the report button asterisk in the upper left hand corner of the active window The system determines which report outline file belongs with the current window and reads it line by line As each line is read ABS Construct replaces any variable reference fields with the ABS Construct User Manual Version 1 0 Page 4 most recently calculated values The line is then written to the printer or disk whichever the report has been routed to The report outline files that you
29. port file name O5 6 Format TRUE no format FALSE Date ID SIZE DESCRIPTION D1 4 Year D2 2 Month D3 2 Day D4 12 Day of week Hull Data ID SIZE UNIT DESCRIPTION N1 25 ABS data filename N2 40 Current directory N3 40 General description line 1 N4 40 General description line 2 N5 40 General description line 3 H1 10 4 m ft Hull length overall H2 10 4 m ft Hull length at waterline H3 10 4 m ft Hull breadth H4 10 4 m ft Depth of canoe hull H5 10 4 m ft Draft from waterline to bottom of canoe hull H6 10 4 m ft Scantling length H7 6 Class 0 hull TRUE else FALSE H8 10 4 m ft Distance from LOA to LWL Keel Data ID SIZE UNIT DESCRIPTION K1 10 4 m ft Keel depth below hull K2 10 4 m ft Root chord length of keel K3 10 4 kg lbs Keel weight K4 10 4 m ft Distance from hull to keel center of gravity K5 10 4 m ft Distance from start of LWL to keel K6 10 4 Percent of keel depth for reinforced shell Material Selection ID SIZE DESCRIPTION M1 3 Material selection number M2 40 Material subtype description M3 40 Material type description ABS Construct User Manual Version 1 0 Page 19 Fiberglass Data ID SIZE UNIT DESCRIPTION Fi 12 Laminate form description F2 6 Multi directional laminate TRUE F3 10 4 Ksmm psi Actual flexural strength F4 10 4 Ksmm psi Actual flexural modulus F5 10 4 Ksmm psi Actual tensile strength outside skin F6 10 4 Ksmm psi Actual tensile modulus inside skin F7 10
30. rd values for the second and third items are included with the variable identifier list in Appendix A The reference to the variable is created in the report text itself by enclosing the above information in curly brackets and For example to place the value of the hull breadth in one of the reports for 10 characters with 3 decimal places showing your field definition would look like the following H3 10 3 But hold on That looks right but now there is no way to identify the value on the report All you will see is anumber on the paper Place some identifying text around it and always try to incorporate units when applicable If the hull breadth is 10 2365 feet and the report line looks like this Hull Breadth H3 10 3 U6 6 the report generated would have the following text Hull Breadth 10 236 Ft Note that the unit field U6 6 only contains the length of the data in characters For text and integer whole numbers the decimal length can be omitted otherwise it will be ignored by the report system A couple of hints on reports If you do edit the report files with a word processor please save the files in a Non Formatted or ASCII mode Most word processors the good ones anyways have this mode available If this is not done unpredictable results will occur when the report outline is sent to the printer This happens because word processors place hidden characters in the text for formatting purposes These char
31. re found in data files ending in dat on your original program disks These files are in ASCII or text that can be read by any word processor You may add material strength values to these lists as follows 1 MAKE A BACKUP COPY OF THE ORIGINAL DATA FILES FIRST 2 Read the data file to be altered into a word processor in ASCII or NON DOCUMENT MODE or FORMAT OFF mode 3 Add additional strength information in EXACTLY the same format and column position 4 Save the file and copy it into the same directory as ABS CONSTRUCT ABS Construct User Manual Version 1 0 Page 8 5 You now have access to the new material values within ABS CONSTRUCT FIBERGLASS When choosing Fiberglass as a construction material ABS CONSTRUCT will prompt you to select either sandwich innner and outer skins with a core material such as balsa wood or single laminate construction by opening a window with two buttons Click the left mouse button on the construction method of your choice If you choose sandwich construction ABS CONSTRUCT will pop up a list of core materials and their strengths Move the mouse cursor up or down over this list and select one by pressing the left mouse button once The core material strength values will be shown in a window which will allow you to edit those material strength values by simply clicking the left mouse button on the number to be changed and editing as described above When editing is complete click the OK button on the scr
32. received with the ABS Construct software are set up to provide a close duplication of screen data to the printer or disk PLEASE feel free to edit them change their format add variable references printer codes etc BUT BY ALL MEANS keep a copy of the original report outline files Editing Report Outlines Appendix A defines each of the report outline files included with the ABS Construct software These files can be recognized by the filename format of NNA ACR The first N defines the main menu selection and the second N defines the sub menu selection The A is used to identify the report when several report files are used in the same menu selection For example the material selection Fiberglass has a main menu number 2 and a sub menu number 1 This selection has three screens of information and each has a report outline associated with it The report generated by the first screen is produced using the outline file 21A ACR the second screen using 21B ACR and the third using 21C ACR Amazingly simple isn t it To identify a variable field in a report file you only have to know three things First the identifier of the varible you are displaying on the report This can be found in Appendix A Second the width in characters of the information you wish to see in the report Third the number of places to carry the decimal representaion if the data being displayed is a Real decimal number Please note that the standa
33. rengths of the shell at a default hull location using the currently selected material and strengths and the HULL dimensions found in the HULL DATA file You may alter the current hull location and spacings of reinforcements by editing these values as described above IN WAY OF KEEL Choosing this menu item causes ABS CONSTRUCT to calculate the thickness and strengths of the shell at a default hull location using the currently selected material and strengths and the HULL and KEEL dimensions found in the HULL DATA file and the KEEL DATA file It is assumed that the locations being calculated for are in the reinforced shell area for the keel You may alter the current hull location and spacings of reinforcements by editing these values as described above ABS Construct User Manual Version 1 0 Page 10 DECK Choosing this menu item causes ABS CONSTRUCT to calculate the thickness and strengths of the deck plating at a default hull location using the currently selected material and strengths and the HULL dimensions found in the HULL DATA file You may alter the current DECK location and spacings of reinforcements by editing these values as described above CABIN Choosing this menu item causes ABS CONSTRUCT to calculate the thickness and strengths of the cabin house top sides and end plating at a default hull location using the currently selected material and strengths and the HULL dimensions found in the HULL DATA file You may alter the
34. structural member itself and the local thickness of the plating material it attaches to ABS Construct User Manual Version 1 0 Page 12 When this selection is chosen you will be prompted to select either DECK or SHELL refinforcements Make your choice by clicking the appropriate button in the prompt window with the mouse You may select the opposite choice by simply reselecting the INTERNALS menu After choosing either DECK or SHELL you will see a set of calculations based upon default dimensions or the last entered dimensions of the internal member You may change or view these dimensions by clicking the mouse on the CALC button in the lower right corner of the screen This will present a graphics screen showing the locations and dimesions of the internal member used to make the previous calculations You will also find the thickness of the shell as an input Any of these dimesions and input values may be changed by simply clicking the mouse cursor over the actual numbers to be changed The value will be highlighted if it is a valid user input Now edit the values as described above BULKHEAD Choosing this menu option allows the calculation of transverse athwartships internal reinforcements This calculation requires the dimensions of the structural member itself and the local thickness of the plating material it attaches to When this selection is chosen you will be prompted to select either STRUCTURAL or TANK refinforcements Make your choi
35. the output values will be recalculated with the new rudder dimension data BEARINGS When this menu item is selected you will see a calculation window with default or last entered values displayed You will also see a material button displayed with either STEEL BRONZE or SYNTHETIC as the bearing material You may choose among these materials by clicking the mouse button on the material button one or more times until the desired material appears in the window As each material is chosen the calculations will be updated on screen BOLTS When this menu item is selected you will see a calculation window appear The calculations use either default or the last entered values to make these calculations You may edit any of the input data including the bolt material strength characteristics by clicking the mouse on the number to be changed and editing it as described above HORN This menu item pertains only to semi spade rudders and is particularly complex It is not implemented at this time SEMI SPADE SPADE This portion of the menu determines which type of rudder is used in the calculations Only the SPADE rudder is implemented at this time 9 KEEL CALCULATIONS BOLTS Choosing this menu item displays a calculation window that uses either default or last entered values of the keel dimensions conatined in KEEL DATA See FILE menu and KEEL DATA menu item You may edit any input value in this calculation window by following the directions giv
36. to the Directory option You may hold the mouse button down known as dragging in software circles or release the button before moving whichever you are more comfortable with Select the directory option by pressing and releasing the mouse button and the menu will disappear It will be replaced by a window with options about the directory search on your disk For now place the mouse over the OK button the OK text enclosed by a square is known as a button and press the mouse button A text screen will be displayed with the list of files in your current directory and the mouse arrow will be replaced by a highlight bar Moving the highlight bar to the bottom of the screen you can make selections for MORE or EXIT by pressing and releasing the mouse button as before over the corresponding text You will return to the graphics screen The directory window will still be displayed and will stay until another selection is made from the menu bar The second item of interest on the screen is the information bar This bar located at the bottom of the screen tells you some important information about the data you are currently calculating To the left the filename of the data file is displayed This allows you to easily determine which hull definition you are currently working on at any time Next to the filename is the material descriptions This area displays the current shell material being calculated for and the shell material form bein
37. ts or for submittal to the ABS by editing them or adding text to them with a word processor Starting the Report Session Under the main menu heading Output you will find the entry Report Selecting this entry will start the report session A small window will appear asking you the route of the report generation Reports can be routed to either disk or printer Select the option by placing the mouse over the desired text and pressing the left mouse button Routing the report to the printer you are asked to provide the port that your printer is connected to If it is a parallel type printer it will be connected to one of the LPT ports If it is a serial RS232 type printer it will be on one of the COM ports If you are not sure the most common printer is parallel LPT1 but you may need to experiment a bit to determine the correct port When starting the report session to the printer with formatting ON please be sure to advance the paper to the top of a new page Routing the report to disk you are asked to provide a name for the file to be generated As in the case of loading and saving files the filename may include the full DOS path or just the filename The later will be placed in the ABS directory for later use You may also choose to append your report file to an existing file If the filename already exists in the directory the system will prompt you to determine the action taken on the old file If you are using sh
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