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what torque specs on cam shaft bolts 2000 saturn 2.2
what torque specs on cam shaft bolts 2000 saturn 2.2
hi i am looking for the torque settings for a proton gen 2 cylinder head bolt and crank shaft bolts both big ends and main bearing bolts
I think it's 46 foot/pounds.
The torque sequence for a single cylinder Briggs and Stratton engine horizontal shaft head is increments of 2's for hp and 1's for head bolts. That makes 11 head bolts for an 18 hp.
The intermediate shaft is the shaft going to the driver side wheel from the tranny. The shaft is suppose to eliminate what you call torque steer, It comes straight from the tranny and bolts to the engine block with a bearing race to hold the shaft and at that brace is where the half shaft, or drive shaft connects to the intermediate shaft and to the driver side hub.
The intermediate shaft is the shaft going to the driver side wheel from the tranny. The shaft is suppose to eliminate what you call torque steer, It comes straight from the tranny and bolts to the engine block with a bearing race to hold the shaft and at that brace is where the half shaft, or drive shaft connects to the intermediate shaft and to the driver side hub.
The front axle torque specs of a 1999 Saturn is 41 ft lbs. It is the axle shaft support bracket to engine bolts.?æ
To replace the torque converter your going to have to take the transmission out of the car. It bolts to the flywheel on the engine. All you have to do is slide it off the shaft and put the other one on turning it and pushing in at the same time. You will feel when it slides all the way back on the shaft.
It's between the engine and transmission. It slides onto the input shaft of the transmission and bolts to the flexplate on the engine.
Universal joints are always under constant pressure and stress from the movement of the drive shaft and vibrations caused by its rotation. It is important therefore to tighten the bolts securely, applying between 70 to 80 foot pounds of force on the torque wrench.
Shaft power P = (2(pi) * (angular Speed in rpm) * (Torque at shaft)/ 60 Torque of a solid shaft is given by (pi/16)* (Shear stress of material of shaft) * (Dia of shâft3).