I could just put up with the clunk or try and get a valve washer made up as suggested by Barry ( i think).
What are you all doing??
Stu,
The red rubbers are the correct part but it sounds like they went much too far in trying to make them soft enough to actually work as a bump stop. There is a much tougher white bump stop available from Motobins which I have fitted. They go too far in the other direction being being too hard to eliminate a topping out clunk but at least they are durable..
If you have read previous posts on fork clunks the real solution is to increase rebound damping particularly over the last 25mm of travel.
Here’s how the forks work.
Compression DampingDuring fork compression oil is displaced from the lower fork leg into the stanchion. It passes through the compression damping holes in the bottom of the damper rod and also through the annular gap between the damper rod and valve body lifting the valve washer up against the valve plate. The degree of compression damping is determined by the size of the compression damping holes and the oil viscosity
Rebound DampingAs the forks extend the damper piston forces oil back into the lower fork leg. The valve washer drops and seals against the valve body and the oil can now only pass through a small 3mm hole near the top of the piston damper rod. This is the rebound orifice. The area of this hole is smaller than the area of the compression damping holes by a factor of 3 resulting in approx 3 times stiffer rebound damping relative to compression. That figure is typical as rebound damping is always substantially stronger than compression damping. During the last 25mm or so of extension this hole drops below the valve washer so there is nowhere for the oil to go except by leakage past the washer and to a much lesser extent past the piston rings. This is meant to be the rebound hydraulic bump stop and its efficiency will depend on the leakages mentioned. Variability here may explain why some owners have problems with topping out clunk and others do not. In my case the area of leakage past the valve washer was twice as much as through the rebound hole proper so there was very little effective hydraulic bump stop effect. In making my own valve washer I reduce the washer to piston rod clearance to cut the leakage in half and this eliminated the topping out noise.
If you have the one piece valve body then the valve washer may be a steel one. BMW later introduced a thicker chamfered plastic valve washer with the washer to piston rod clearance reduced in an attempt to reduce leakage and therefore improve the rebound hydraulic bump stop.
The one essential test I strongly recommend is to remove the wheel, front mud guard and the springs, then stroke each fork leg individually by hand. What you learn from doing this how the damping feels. Compression damping should be almost non existent and rebound damping much stronger but the important bit from a topping out clunk point of view is you feel a significant increase in rebound damping over the last 25mm of travel. If you don't feel that then the leakage issue has to be addresed.
