Generally, a lubrication problem is one of two types --
brinelling or end galling. The grooves made by the needle roller bearings on the
trunnion of the cross are known as brinelling. Brinelling can also be caused by too
much torque for the capacity of the u-joint used. End galling is a displacement of
metal at the end of the trunnion and can also be related to angularity problems.
Both of these problems can be caused by lack of lubrication.
Problems which are not a result of lubrication are associated
with the installation, angles, and speed of the driveshaft. Fractured parts
caused by torque, fatigue and bending are associated with overload, excessively
high u-joint angles and driveshaft lengths exceeding critical speed limitations.
VIBRATION-RELATED PROBLEMS
Vibration is a driveshaft problem that can either transverse
or torsional.
Transverse vibration is the result of unbalance acting on
the supporting shafts as the driveshaft rotates. When a part having an 
out-of-balance,
or heavy side, is rotated an unbalanced force is created that increases with the
square of the speed. The faster the shaft turns, the greater the unbalance force
acting on the shaft.
The force produced by this out of balance condition tends
to bend the supporting members. As the supporting members have a natural frequency
of vibration similar to a swinging pendulum, a violent vibration may exist at certain
periods when the speed of rotation and the natural frequency of supports coincide.
Each end of the shaft must be balanced individually as each
support is responsive to an out of balance condition in portion of the shaft it supports.
Out-of-balance affects operating conditions only when rotating.
Transverse vibration caused by a driveshaft out-of balance
will usually emit sound waves that you can hear and mechanical 
shaking that
you can feel. The force from out-of-balance increases with speed, not torque load.
The driveshaft speed is determined by vehicle speed and the vibration is demonstrated
best by road testing the vehicle to operating speed, disengaging engine, and checking
vibration while coasting with engine noise eliminated.
Torsional vibration, although similar in effect to transverse
vibration, is an entirely different motion. The transverse vibration is a bending
movement where as torsional vibration is a twisting motion.
The energy to produce to torsional vibration can occur from
the power impulses of the engine or from improper u-joint angles. This type of vibration
is difficult to identify in road testing but certain characteristics do exist. It
causes a noticeable sound disturbance and can occasionally transmit mechanical shaking.
Torsional vibrations can exist at one or more periods
any place in the operating range and tend to be more severe at lower speeds.
Changes in torque load (part-to-full throttle) usually affect the vibration.
The non uniform velocity obtained when a u-joint operates at an angle produces
torsional vibration. In a driveline having two or more joints in series, it
is desirable to have the individual joint angles arranged such that the net
result minimizes non uniform velocity characteristics over the system.
It is practically impossible to maintain the desired joint
angles throughout the operating range. Therefore, it is necessary to determine some
maximum limit of torsional excitation which can be considered as generally acceptable.
The amount of torsional excitation which can be accepted
without causing excessive disturbance depends upon operating speed and characteristics
of supporting structures and other units in the driveline and drivetrain system.
Other vibrational problems in a driveshaft could be caused
by worn or damaged u-joints. These joints must be constantly maintained according
to manufacture's lubrication specifications.
RELUBRICATION
Re lubrication cycles vary depending on the service requirements
and operating conditions of the vehicle. A recommended re lube cycle for various
types of service are shown in the following table:
| Type of Service |
Miles or
|
Time
|
| City |
5000/8000
|
3 Months
|
| On-Highway (mid-range) |
10,000/15,000
|
3 Months
|
| On-Highway (line-haul) |
10,000/15,000
|
30 Days
|
| On/off Highway |
5,000/8000
|
3 Months
|
| Off Highway/Industrial |
|
200/500 Hours
|
Other Driveline related issues:
Driveline Angle
Driveline Troubleshooting
Driveline replacements
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