I got a lot of work done today.
The sprocket is solidly welded to 3 other bicycle sprockets, and the drive sprocket is the thickness of 2.5 sprockets. So, we have roughly 5.5 bicycle sprockets directly welded, and then it has 3 rivets connecting that stack to the remaining sprocket cluster.
Just playing around on the bike before starting to do any mods, I was able to do wheelies easily, and that means I'm just pulling on 1 sprocket to lift the front of the bike up (and shifting my weight of course). I kinda figure pulling on the connection strength of a bunch of sprockets should hopefully let it stay attached. If not, I will machine my own part to replace it, and then if the freewheel slips, I will get the strongest one available, and machine something to work for it and see if it holds up.
I'm pretty used to playing the break everything game. You just abuse it, find the weak-link when it breaks, make it tougher, and find what breaks next. You repeat this process until you have a hard time getting it to break anymore.
I'm just figuring out the placement of the motors tonight. A lot of things to consider. I reduce unsprung weight by getting the motors as close to the front pivot point as possible, yet I add complexity and distance in the chain path. If I mount them close to the sprocket, things can be more simple and reliable, but with reduced suspension performance due to unsprung weight.
I'm also trying to combine some clever passive and active motor and drive cooling help into the mounting brackets for the motors, so it's taking some time to design and fit things together.
I'm pretty excited to finally ride this thing
-Luke
I have had 2 go and that's without any motors involved, I think even a chris king freewheel hub would struggle with the power he is planning to put though it 
