by wassbiplane » Fri Oct 28, 2011 10:09 pm
There has been an analysis done on the kelly-D---but a biplane cellule has to be analyzed in its entirety-- Top& bottom wings,
all the flying wires, and especially the N struts , as a true analysis is dependent on the "sharing" of the loads between all the members..
If you draw up a space frame of a biplane cell, apply some loads produced by the wings , and then try to solve the force
diagrams by simple triangulation --you come to a couple of points where the force is distributed by TWO struts---The
question is --How much in each strut. One of the first methods was by the theory of "least Work" which is what I used.
I have done an analysis on my K-D , but--I have mostly 7/16" flying wires (bought VERY cheap) and some old Piper wing struts
used for the N struts (same $ reason), and Doug Fir spars.
If you search the Hatz/K-D website I'm sure you could find the analysis done by Jurg Mueller (sp-??)
Jerry Wass
There has been an analysis done on the kelly-D---but a biplane cellule has to be analyzed in its entirety-- Top& bottom wings,
all the flying wires, and especially the N struts , as a true analysis is dependent on the "sharing" of the loads between all the members..
If you draw up a space frame of a biplane cell, apply some loads produced by the wings , and then try to solve the force
diagrams by simple triangulation --you come to a couple of points where the force is distributed by TWO struts---The
question is --How much in each strut. One of the first methods was by the theory of "least Work" which is what I used.
I have done an analysis on my K-D , but--I have mostly 7/16" flying wires (bought VERY cheap) and some old Piper wing struts
used for the N struts (same $ reason), and Doug Fir spars.
If you search the Hatz/K-D website I'm sure you could find the analysis done by Jurg Mueller (sp-??)
Jerry Wass