Tracy and Neil,
In order to prove to myself that the RPM is divided between the stacked thrust bearings, I installed a Hall effect sensor in the mounting plate and silver brazed triggers to the middle thrust washer. An inductive
pickup was installed to monitor the rotation of the flexplate (input shaft). This allowed the determination of the input shaft RPM as well as the middle washer RPM under various conditions. The load on the drive was from a 3 blade 72" dia Warp drive prop
with the tip angle set to 20 degrees.
All new bearing components as used in the -C drive were tested along with a used cupped middle thrust washer from a C6 transmission. The cupped thrust washer was tested because it was possible that the cup overlapping
the 3.5mm shaft side thrust washer would prevent the middle washer from contacting and causing wear of the input shaft. After seeing the results from the used cupped washer, new cupped washers were obtained and tested also.
In the course of testing the thrust bearing configurations, it was found that the reduction drive always operates completely filled with oil. The added triggers may have affected the behavior of the bearing stack
due to drag between them and the surrounding oil. To see if this was the case, the drive was modified such that the drive contained about 5 to 6 oz of oil during operation rather than the about 20 oz of oil when completely filled.
The results are shown in the attached plots.
These results indicate that, with all new components including a new flat middle washer, the RPM was reasonably well divided between the two thrust bearings and affected little by the amount of oil in the gearbox.
With the used cupped middle thrust washer, essentially all the RPM was seen by the mounting plate side bearing. With the new cupped middle thrust washer, the RPM distribution between the thrust bearings was affected by engine RPM when the gearbox was completely
oil filled but little affected by RPM when the gearbox was drained.
All the results were obtained with an input shaft that didn't have a groove worn in it by the middle thrust washer.
My conclusion is that with all new bearing components and unworn shaft the system behaves as desired. With used components, the behavior is unknown. The cupped thrust washer is not a solution to the shaft wear
issue because of the uneven RPM distribution when submerged in oil and since shaft wear has resulted from the bearing cages as well as the middle washer.
The internal gearbox pressure with -6 drain lines was about 4 psi when cold and about 2 psi when warm which may have implications in terms of input seal leakage and the seal coming out of its bore. The completely
oil filled gearbox consumes extra power which is converted to heat but apparently not so much as to cause serious problems.
All the above are simply results of my curiosity. You are most welcome to draw your own conclusions.
Steve Boese