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| North American Grand Cherokee Association | ||
| Your one stop source for Jeep Grand Cherokee Information | ||
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Driveline Angles & Vibration |
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By Randy Lyman |
I have
had more than a few customers come back to our service shop after a
gear ratio change to complain that we caused a new vibration in their
vehicle. In actuality, we inadvertently caused the vibration by
increasing the driveline speed.
When changing to a lower gear ratio (numerically higher) the driveline
speed increases proportionally to the change in the ratio. For
example, when changing the ratio from 3.08 to 4.56 there is a 48%
change in the ratio and a 48% increase in driveline speed. This means
that a vibration that would have been noticeable at about 90 mph is
now noticeable at 60 mph. This higher driveline speed makes the
vibration more noticeable because while it previously existed at 90
mph, it may have gone unnoticed due to the amount of vehicle
vibrations it had to overcome in order to be noticed. If the customer
installed taller tires and raised the vehicle before changing the gear
ratio, the vibration is probably caused by the lift. This vibration
caused by the lift and wrong driveline angles would not be noticeable
until the new ratio was installed, since the tall tires and stock
ratio kept the driveline speeds too slow for the vibrations to be
felt. Vibrations due to wrong angles are usually easy to identify
because they are harmonic or cyclic. This means that the vibration
varies in pitch or intensity even when traveling at a steady speed.
The results is a "whir ... whir ... whir" type of noise.
The solution to wrong angles is easy
in theory, but not always easy in practice. There have been many good
technical papers written on this subject, so I won't go into detail now. I
will however cover a few of the basics. In order for a two u-joint
driveline to be free of vibration it must be in balance, and the angle of
the front u-joint must be the same as, or very close to, the angle of the
rear u-joint. If there is a noticeable difference in the angles there will
be a vibration.
If it is not possible to match the front and rear angles, a
constant-velocity joint can be used at the transfer case end with no angle
in the u-joint on the differential end. Although it is expensive, and only
works if the pinion is not offset side to side from the output shaft, this
is the only cure in many lift situations. I have seen vehicles use a
constant-velocity joint at each end of the driveline. This is more
expensive but will fix any angle problem. Another solutions is to rotate
the differential pinion angle up or down to match the front angle. This is
usually not easy and can be accomplished with wedges, by moving the spring
pads, or by rotating the axles tubes in relation to the differential
center section. For some vehicles there are aftermarket kits available for
lowering the transfer case or installing adjustable length control arms.
Although these may seem like extreme measures, they are sometimes the only
way to eliminate or lessen vibrations.
Note: If the vehicle has a differential pinion offset to the side from the
center of the output shaft on the transmission or transfer case, the
angles due to this offset will not cause vibration. This is because the
pinion shaft and the output shaft are still parallel with respect to these
side to side angles.
I have seen some lifted vehicles that vibrate no matter how much care is
taken to balance the driveline and match the angles. It is one of the
things that we sometimes have to live with in order to have a lifted
vehicle.
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Send comments to grandtech@nagca.com
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Copyright © 2006 by NAGCA All rights reserved.