I'll be posting .jpg images of my raw CAD design and the best photos I have of the swingarms I built. As mentioned in the other thread, I don't believe the imposed loads on the isolastics are any different from those on a standard frame, and MAY be less. I do NOT run oversize tires in the rear, 110/90 only (others run 120s, not me).
I will admit, my monoshock bikes haven't been raced hard or even thrashed to within an inch of thier lives on gravel roads. I already have a race bike, and I've moderated my street behavior considerably after completing racing school and actually being on many race tracks. It's just not worth it on the street at excessive speed any more (not to mention the 3 times I've been clobbered). Also, none of the monoshock bikes I built were for racing.
I still maintain that the design is more than adequate, safe, and effective. Whether it's SUPERIOR can only be proven with two otherwise identical bikes and the same rider, on the same track. Any further criticism should be relegated to finite element / structural analysis.
I, too, would love to see detailed pix and information regarding the factory racing monoshock setup. Very interested to know whether they implemented any sort of rising rate linkage.
For what it's worth, Kenny Dreer's original prototype (I have the swingarm & cradle on my blue bike) has a rising rate linkage, "unconventional" to say the least. He had it configured with the shock laying down and bolted to a fabbed-up bracket UNDER the rear frame web, just under and behind the injectors. That bike never ran (dummy mock-up of the 952 engine), so the highest speeds it attained were walking speeds on and off trailers.
This is a never-before published photo that Kenny sent me-
You can JUST make out the upper shock mount here...
(also, check out the carbon fiber primary case, 1 of only 3 ever made, I have that on the shelf as well, very trick)
