ibedayank
Well-known member
And hourly is an excuse to be lazy and take your sweet *** time doing anything.
well hack boy it sure beats doing the job over because you screwed it up and then do it the second time for FREE
And hourly is an excuse to be lazy and take your sweet *** time doing anything.
Wow. You guys just aren't listening. You are acting like children with your fingers in your ears, unwilling to hear something you don't want to hear.
Acceptable runout is .002". That's half the thickness if a sheet of paper. It doesn't take much to feel pedal vibration.
Over torque can cause a rotor to "festoon". Uneven torque, or even tightening using a ring pattern instead of a star pattern can also cause this VERY COMMON PROBLEM.
What I think you guys are struggling with is the idea of a puny bolt effecting that big lump of hard steel. Chances are, none of you have ever checked your brake job with a dial indicator. You need to think of steel as a spring. Each lug compresses it. It swells between them. If you torque the first fastener to full spec, you can warp it just like a head.
My guess is, none of you check your work and most average customers won't be sensitive enough to notice the vibration or care until wear increases to unacceptable limits.
I'm an aerospace engineer. Sounds like I have a few colleagues here. If you don't want to listen to us, Google the topic for yourselves. The advantage of boards like these is that we can learn from each other. I certainly don't know everything, but I know how brake rotors work. Don't want to believe me, Google it for yourself.
^^^^^^^^^^^^
There are two measurements in play.........rotor thickness variation and rotor run out. The run out is easily changed by over torque at the wheel. The hub is the part that damaged and the rotor is attached to the hub. Small hub distortions make for out of spec rotor run out. The driver may see steering wheel vibration or pedal pulsation or both during braking.
Torque wrench keeps records up to 50 times.
You will need tons and tons of lateral pressure on one side to "warp a rotor" (like a seized caliper pin), and even then, you're more likely to chew the pads up and break the rotor off the tophat before it "warp"
For those of you without your fingers in your ears, just for fun, exactly how much clamping load do you think you can get with a 100ftlbs of torque on a 1/2" lug bolt? Lets just see if we can get in the right ballpark.
a) 100lbs
b) 1,000lbs
c) 10,000lbs
What would that have to do with it? Match it with an invoice? Lets say this. Are you any less liable if the wheel falls off anyway?