Arvin,
there was a thread a while back about using computer programs, and I thought a followup workalong might be nice to demonstrate how to use Virtualbow. My contribution to the project would be......
demonstrate how anyone can test a ripping from the stave on the tiller tree, in order to arrive at more precise numbers to plug into Virtualbow for the actual build.
demonstrate with screenshots how I will plug your design ideas and test results into the program and show how different options or changes will affect the design, say for instance if you want to change limb lengths, widths, recurve, deflex or reflex.
I’ve built from architectural plans my whole adult live and can follow plans pretty darn close.
Before computers were used to draw plans, we used to scale from plans to get dimensions that were not specifically noted, the success of doing this depended on the accuracy of the draftsman. Now a days computer drafting has made some things easier and better, but sometimes the way the plans are printed out means problems can be introduced unexpectedly.
I think Virtualbow can generate a force draw curve, but I do not have the technology at hand to print and mail full size bend profile curves. Visualbow will output these profiles at any draw length and actually let you move a slider a draw the bow to any drawlength on the computer screen. and screenshots can be made and posted to help "eyeball it" for comparision. Maybe someone with printing equipment available can help if full sized bend profiles are desired.
Anyone that wishs to follow along could load the program on their laptop, but it will not be neccesary for you to do so unless you want to.
Being a unbacked selfbow it’s near impossible to get your thickness spot on
yes, with an unbacked selfbow, the back crown or a rounded belly complicates things. Virtualbow was primarily developed for use with FG laminated bows and can easily work without the FG lams so long as the limb crossection remains retangular. when crowned backs and bellies are part of the design, some adjustments will need to be made in the calculations thus starting thick will be prudent. how much extra thick will depend on our success at estimating the "adjustments". perhaps some additional work with the proposed test specimen will get us fairly close.
