GrumpyGel
Well-Known Member
I don't think the temperature of the VCU provides any meaningful info. We know that as the fluid warms up the VCU will transmit less torque to the rear wheels, so if they're warm they will be doing less harm to the transmission than when cold. Once the fluid reaches that magical temp where expansion results in 'hump mode' would be good to know - but we will never know what that is. It is possible that all brand new GKN units achieve hump mode at the same temp (although I doubt it very much) but we know VCUs degrade at differing rates and most VCUs are now recons - so its a rather pointless exercise. Measuring the outside temp of the VCU is even more meaningless.
Similarly, I'm not sure that differences in prop speeds gives the information you need - it won't tell you if the VCU is to tight.
What is needed is to know is how rapidly the transmission is being worn and what is causing it.
The only way I can think of measuring rate of wear is to see how hot the bearings in the IRD (and rear diff) pinion are running. In this case, I would think it is OK to measure the temp on the outside of the casings housing the bearings. Once again, we don't necessarily know what is the temp of an acceptable rate of wear (ie the VCU & tyres are OK) and what is an unacceptable temp. What we do know though is that if it is getting hotter then wear is increasing. Therefore if we take the temp of a known OK transmission and the temp consistently/continuously increases above this - then something is wrong.
If something is wrong, then it is because the VCU is to tight or because the tyres are mismatched. We 'can' measure the tyres by tapping into the ABS monitors. If 1 of the wheels is showing a difference in rotation then the tyres need addressing. If the ABS monitors show the wheels are rotating OK, then the VCU is presumably to tight.
The only spanner in this works would be if, as described in a post above, the VCU would not let a hub rotate at the speed the tyre wants to (due to its size) and scrubs the tyre. In this case, the bearing monitors will show something is up - but the ABS monitor will be looking OK - so the VCU is wrongly accused of the fault. If this is the case though - the important thing is that we have determined that there is a problem (rather than knowing because the IRD has disintegrated) and its down to the owner to determine what the problem is.
Incidentally, when my IRD went, it was due I believe to a tyre down on pressure. I believe I may have driven up to 400 miles over 2 days like this. When the IRD finally went bang, the tyre in question was completely buggered. Most of the rubber had been worn off it, down to wire/steel in places, and it was very hot. I'm not sure if this would happen normally on a tyre down on pressure or whether the VCU did it by dragging it round at a speed that the tyre didn't want to rotate at.
Similarly, I'm not sure that differences in prop speeds gives the information you need - it won't tell you if the VCU is to tight.
What is needed is to know is how rapidly the transmission is being worn and what is causing it.
The only way I can think of measuring rate of wear is to see how hot the bearings in the IRD (and rear diff) pinion are running. In this case, I would think it is OK to measure the temp on the outside of the casings housing the bearings. Once again, we don't necessarily know what is the temp of an acceptable rate of wear (ie the VCU & tyres are OK) and what is an unacceptable temp. What we do know though is that if it is getting hotter then wear is increasing. Therefore if we take the temp of a known OK transmission and the temp consistently/continuously increases above this - then something is wrong.
If something is wrong, then it is because the VCU is to tight or because the tyres are mismatched. We 'can' measure the tyres by tapping into the ABS monitors. If 1 of the wheels is showing a difference in rotation then the tyres need addressing. If the ABS monitors show the wheels are rotating OK, then the VCU is presumably to tight.
The only spanner in this works would be if, as described in a post above, the VCU would not let a hub rotate at the speed the tyre wants to (due to its size) and scrubs the tyre. In this case, the bearing monitors will show something is up - but the ABS monitor will be looking OK - so the VCU is wrongly accused of the fault. If this is the case though - the important thing is that we have determined that there is a problem (rather than knowing because the IRD has disintegrated) and its down to the owner to determine what the problem is.
Incidentally, when my IRD went, it was due I believe to a tyre down on pressure. I believe I may have driven up to 400 miles over 2 days like this. When the IRD finally went bang, the tyre in question was completely buggered. Most of the rubber had been worn off it, down to wire/steel in places, and it was very hot. I'm not sure if this would happen normally on a tyre down on pressure or whether the VCU did it by dragging it round at a speed that the tyre didn't want to rotate at.