The numbers below refer to the step numbers in the diagnostic table.
First-order driveline related vibrations are usually caused by components that exhibit excessive runout or imbalance. Reproducing a vibration concern in the service stall can aid in pin-pointing the component which may be at fault. A vibration concern may appear to be either less severe or more severe when duplicated in a service stall, than when duplicated on the road.
First-order driveline related vibrations that could not be duplicated during the non-torque sensitive service stall test, could be caused by internal axle components. This test is designed to duplicated first-order driveline related vibrations that are sensitive to torque/load. A vibration concern may appear to be either less severe or more severe when duplicated in a service stall, than when duplicated on the road.
First-order driveline vibrations can be caused by excessive runout of a propeller shaft.
First-order driveline vibrations can be caused by excessive runout of the pinion flange. If a propeller shaft exhibits excessive runout at a pinion flange end only, the runout may actually be caused by the pinion flange.
Re-indexing a propeller shaft to a pinion flange can reduce the amount of total combined runout which the components produce, which may in-turn reduce a vibration.
Step | Action | Yes | No | ||||||
---|---|---|---|---|---|---|---|---|---|
1 | Has the Vibration Analysis - Road Testing table been completed? | Go to Step 2 | |||||||
2 | Did you record frequency data from the J 38792-A , Electronic Vibration Analyzer (EVA) 2, during the Vibration Analysis - Road Testing procedure? | Go to Step 3 | Go to Step 5 | ||||||
3 | Based on the Vibration Analysis - Road Testing table, is the concern first order driveline related? | Go to Step 6 | Go to Step 4 | ||||||
4 | Based on the Vibration Analysis - Road Testing table, is the concern second order driveline related? | Go to Step 19 | Go to Step 5 | ||||||
5 | Based on the Vibration Analysis - Road Testing table, is the concern a noise that is not felt? | ||||||||
6 |
Did any of the components listed exhibit any of the conditions listed? | Go to Step 7 | Go to Step 8 | ||||||
7 | Replace the components as necessary. Refer to the following procedures in Propeller Shaft: Did you complete the replacement? | Go to Step 26 | -- | ||||||
Attempt to duplicate the vibration in the stall. Refer to Vibration in Service-Stall Test (Non-Torque Sensitive) . Were you able to duplicate the vibration? | Go to Step 10 | Go to Step 9 | |||||||
Perform the Vibration in Service-Stall Test (Torque Sensitive) . Were you able to duplicate the vibration? | Go to Diagnostic Starting Point - Rear Drive Axle in Rear Drive Axle | ||||||||
10 | Was the vibration most evident under the transmission mount? | Go to Step 11 | Go to Step 13 | ||||||
Measure the runout at the front of the forward-most rear axle propeller shaft. Refer to Propeller Shaft Runout Measurement . Does the runout measurement require that the propeller shaft, or shafts, be replaced? | Go to Step 13 | Go to Step 12 | |||||||
12 |
Is the vibration still present? | Go to Step 13 | Go to Step 26 | ||||||
13 | Measure the runout of the complete propeller shaft, or shafts. Refer to Propeller Shaft Runout Measurement . Does the runout measurement require that the propeller shaft, or shafts be replaced? | Go to Step 14 | Go to Step 15 | ||||||
14 |
Was the vibration reduced or eliminated? | Go to Step 26 | Go to Step 17 | ||||||
Determine the runout of the rear axle pinion flange. Refer to Pinion Flange Runout Measurement . Does the runout measurement require that the pinion flange be replaced? | Go to Step 16 | Go to Step 17 | |||||||
16 | Replace the pinion flange. Refer to Drive Pinion Flange/Yoke and/or Oil Seal Replacement in Rear Drive Axle. Did you complete the replacement? | Go to Step 26 | -- | ||||||
Re-index the propeller shaft. Perform the following steps:
Was the vibration reduced or eliminated? | Go to Step 26 | Go to Step 18 | |||||||
18 | Return the propeller shaft to the original position and balance the propeller shaft. Refer to Driveline System Balance Adjustment . Were you able to balance the driveline system? | Go to Step 26 | |||||||
19 |
Did any of the components listed exhibit any of the conditions listed? | Go to Step 20 | Go to Step 21 | ||||||
20 | Replace the components as necessary. Refer to the following procedures in Propeller Shaft: Did you complete the replacement? | Go to Step 26 | -- | ||||||
21 |
Refer to Trim Height Inspection in Suspension General Diagnosis. Did you find and correct a condition? | Go to Step 26 | Go to Step 22 | ||||||
22 | Measure the propeller shaft angles. Refer to Driveline Working Angles Measurement . Do the propeller shaft angles require adjustment? | Go to Step 23 | Go to Step 24 | ||||||
23 | Adjust the propeller shaft angles. Refer to Driveline Working Angles Adjustment . Did you complete the repair? | Go to Step 26 | -- | ||||||
24 | Inspect the propeller shaft, or shafts, for proper phasing. Refer to Propeller Shaft Phasing Inspection . Does the propeller shaft phasing require correction? | Go to Step 25 | |||||||
25 | Correct the propeller shaft phasing. Refer to Propeller Shaft Phasing Correction . Did you complete the repair? | Go to Step 26 | -- | ||||||
26 |
Is the vibration still present? | Go to Step 3 | System OK |