safety wire 
Roy,
I agree with you on this one. I have a total of 13 bolts securing the motor including the 4 plates that fasten to the frame crossmembers. Both the nut and the bolt head need to be drilled. Bolts heads are easy (straight thru) but corner drilling of grade 8 nuts is not. I therefore need to drill 26 holes. I generally get about 2 holes to a drill bit, even when I use an end mill to start a flat and a center drill to start the hole. Bits break off when exiting the other side. This is a poor excuse for not doing it. The bigger question to me is why did they get loose? It is possible that I forgot to tighten them because I did have some trouble getting all 13 to line up after I re-built the frame.
For this round, I have re-tightened all the nuts to 30 ft-lbs and used blue Loctite. If the problem continues, I will have to bite the bullet and drill all those suckers.
Stuff rattling loose is often due to something being compressed or stretched beyond the elastic deformation limit. Things I look for are washer compression, bolt or stud stretching, or compression of the parts clamped together by the bolts. The bolts are strong steel and the clamped parts are weaker aluminum. Compression deformation would probably be in the aluminum.
Bo,
I use grade 8 x 3/8" bolts and nuts with washers on the aluminum and lockwashers. If all are tightened to 30 ft-lbs in an oily condition (would Loctite act like oil when torquing?), a clamping force of 6100 lbs should be achieved, or around 6750 lbs with the fine thread ones. The area of a plain washer would be around .497 in sq. which would require over 17,000 lbs of compression to reach the yield point (35,000 psi) of 6061-T6 aluminum. Using a lockwasher and omitting the plain washer, the area would be about .301 sq.ins, which would resist a compression of 10,535 lbs. Of course, with a slightly oversize hole in the aluminum plates, I would be getting close to the yield point of the aluminum. I think it likely that I simply failed to completely tighten the nuts as opposed to overstressing the aluminum.
And to your reply, Ed, I agree that the exercise of safety wiring is just a darn good practice to make sure you really did tighten those nuts and bolts.
And Neil,
I just got your post while writing this one. I guess what happened sort of reinforces the results of that study.
The following photo shows a grade 8 nut and bolt drilled as I have found to work. If you look closely, you will see that the drill bit is broken, which happened as it exited the opposite corner of the nut.
Tom
