Since this thread hasn’t been updated for a while I recapliate in short. I have a very sudden speed related heavy and fast vibration (like driving over a washboard) when pulling up gently with the TC locked up in such a manner that it stays locked up. This happens always at the same speeds : 65 and 75 mph. Playing with the gaspedal or brakes so the TC clutch disengages immediately solves the problem. Driving at any constant speed, pulling up aggressively or driving with the lockup connector not attached never gives problems.
Anyway since this only occurs with the lockup engaged, the TC clutch is probably the culprit. Is that something that can be repaired or do I have to replace the hole unit? Should i replace the flexplate while I’m in there or is that a ‘don’t fix if it ain’t broken’ thing?
Still, i hate throwing money at it if i'm not sure it's gonna solve the issue. Is there any way i can confirm the TC clutch is the culpritt before removal and order?
Thanks.
Before you commit to a new TCC (and the associated labor costs to change it),
be sure to first change your transmission fluid/filter and then get your line pressure checked - that check should be week one stuff for any competent mechanic:
Oil pressure can be checked with the transmission in the vehicle, using a 0 to 300 psi pressure gauge.
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- Clean dirt from line pressure plug, located on left side of transmission case, and remove plug.
- Connect pressure gauge hose fitting at pressure plug bore in case and place gauge in vehicle so it can be seen from the driver's seat.
- Drive vehicle until transmission fluid has reached operating temperature.
- Check and correct fluid level.
- Road test car and check pressure as follows:
Engine Idle Pressure Check
With selector lever in Direct Drive position, operate vehicle at approximately 30 mph with throttle closed. Line pressure should be 70 psi. When a selector lever has been moved to Intermediate range with vehicle operating at a stead road load (25mph), line pressure should e 150 psi (plus or minus 5 psi).
Pull Throttle Pressure Check
With vehicle on jackstands, disconnect vacuum line from carburetor and place selector lever in Neutral and in Reverse. Operate engine at fast idle (700-1000 RPM) in each position. Neutral pressure should be 145 psi, and Reverse pressure 230 psi. Connect vacuum line.
If either pressure check was low, check vacuum modulator for loose attaching bolt, collapsed bellows, or stuck modulator valve. Also check pressure regulator valve and spring for sticking, plugged orifice, or collapsed spring. Check regulator boost valve for sticking.
If either pressure check was too high, check vacuum line and vacuum modulator for leaks or sticking valve. Also check pressure regulator valve and boost valve for sticking.
A couple of relevant items:
30 Common 4L60E Transmission Problems & Repair
25. Torque converter shudder in 4th while lockup is engaged; problem goes away when the brake pedal is pressed slightly to unlock converter: Need to verify line pressure, and provided no valves in the TCC (Torque Converter Clutch) hydraulic circuit are worn, replace the torque converter.
Transmission shudder is a recurrent problem that afflicts millions of vehicles nationwide. But while the issue is common, its causes are not always easy to find. Here’s a look at how to troubleshoot this frequent complaint.
What Is Transmission Shudder?
Drivers usually notice transmission shudder when they are driving between 40-60 mph.
They feel the vehicle begin to shake, as if they just drove over a rough patch of road. The sensation lasts for 3-4 seconds, then everything returns to normal – for the time being.
The cause may seem clear: transmission issues caused by failing fluid or a slipping torque converter clutch (TCC). But is this necessarily the case? Here’s a step-by-step process for getting to the root of the problem.
- Check trouble codes, as the vehicle’s computer may tell you all you need to know about what’s causing the shudder. It may also reveal other issues with the automobile. In either case, it’s important to fix all trouble codes before proceeding further.
- Use your shop scanner to monitor the vehicle when the shudder occurs. Note whether or not the TCC slips at the same time. If so, then you have located the problem. If not, then the issue may not be with the transmission at all, but with the engine. Common engine-related causes of shuddering include: misfiring plugs, a miscalibrated vehicle computer, and poor fuel intake. Monitor the engine during shuddering to detect these issues.
- If the TCC does slip during the shuddering, then it is almost certainly at fault. But, before you begin replacing parts, check online for any technical service bulletins (TSB) released by the manufacturer. This may point you to the real cause when nothing else will. For example, GM recently issued a TSB for it 6T70/75 unit, explaining that shuddering is often caused by poorly connected ignition ground coils. Only after checking for a TSB-related issue should you proceed to additional troubleshooting steps.
- Shuddering is often caused by a loss of transmission fluid pressure. Adjusting the EPC solenoid to increase this pressure may eliminate the shudder. If you suspect that the fluid is at the root of the problem, then flushing the system and adding new oil is the next step most shops take. But, before doing so, drop the pan and look for debris in the fluid. If you see this, or if you have other reasons to suspect worn components, then you will need to replace parts as necessary.
- There are additives that promise to “instantly fix” transmission shudder simply by adding them to the fluid. However, these compounds are, at best, only a temporary fix. Using them is like putting an adhesive bandage on a cut that needs stitches. A professional transmission technician should never rely on these products.
Transmission shudder is a common problem with many possible causes. It’s vital that the technician carefully troubleshoot the issue before attempting to resolve it. Taking the time to ensure that the root issue has been found will pay off in the long-term, both for the customer and for the shop’s reputation.
. So now i do and i will test it that way. However if the problem remains, nothing is gained. It still can be the solenoid, the check ball mechanism or another not related problem that only gets more noticeable. If i could do the test with the rear axle on jack stands (so there is almost no load to the engine and driveline) that would be better but i’m not sure that’s a safe thing to do. Would the VSS work that way?
