I think i've figured out an explanation for what causes the crankhub to spin that actually explains all the different scenarios where this issue has been reported (stock power, high power, and a condition I just learned about - lugging the engine in low rpm without shifting)
I was reading a thread on f80post and a couple people reported spinning there hib just cruising in 7th gear, and hitting the gas - no shifting, just hitting the gas and bam, spun hub.
This really got me thinking, because until then everything I understood to cause the hub to spin pointed to quick engine decelaeration as the culprit (crank slows abruptly, but the rotational inertia of everything driven by the hub keeps spinning, breaking the hub loose). How the heck could the hub have spun when the engine barely changed rpm
So the theory I've come up with is this - the crankshaft is storing energy like a torsion spring under torque, and when the torsion lets go it breaks the hub loose. Here are my thoughts...
If you're lugging the engine hard in low rpm, each power stoke of a piston is winding up the crankshaft like a torsion spring against the transmission. When the exhaust valve of the driving piston opens, all that torque is momentarily released, and the crankshaft can violently unwind the degree or two (guessing on magnitude, maybe more or less depending on torque?) of twist that built up during the power stroke. This would be especially challenging when piston 1 is providing the torque to the shaft, as the whole length of crankshaft is winding up. Normally the harmonic balancer should be able to minimize/mitigate the spring-back of the crankshaft when the exhaust valves open. But lugging at low rpm, there isn't enough momentum in the balancer for it to normalize crank shaft speed effectively.
So the issue would be worse at low rpm due the reduced effectivess of the harmonic balancer at low rpm. This explains why hubs can spin on stock power; imagine all the twist in the crankshaft that is repeatedly slamming the hub as it releases with each exhaust valve opening event...
It also explains why high power builds encounter it despite not having any more rotating mass being driven by the hub: more torque = more crankshaft twist during power stroke = more violent springback during the exhaust valve opening event.
Thoughts?
