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After seeing more detailed description of the problem I think the body mounted couplers simply be causing the cars to derail on curves. I have doubt that deeper flanges will solve the problem.Earlier in the thread there was some mention that Kato wheels and half-axles are a single piece of metal. Here is a proof that they are not.The half-axle is clearly different color than the wheel. It is also magnetic, but not prone to rusting, so I assume it is stainless steel. To show that they are separate pieces, I have pressed the half-axle out of the wheel. This confirms that if needed, the length of the axle protruding from the wheel face (thus the total axle length) can be adjusted.
Louis,See reply #2 on this thread. I placed a link in it to an easy and cheap way to press adjust the wheel axles within the wheels already.
Wow thanks , I have some in stock before I buy more .Was it difficult to slide out ?Method ?My thinking is the couplers are pushing the following cars out since there is not a lot of play in the couplers .I will try first to remove the stoppers on some cars .The S curve are definitively the biggest problem.
I still suspect that deeper flanges on the Kato wheels will not resolve your problem. The car will likely just jump a bit higher over the rail.
I did some test with MT bigger flange wheels and I have to admit that you are right ...I will now check the trucks that may be too stiff to move upward and downward , will try to enlarge the hole on the front and rear where they are fixed to the bolster , not all around , so the screw will still hold them
Do you think that the problem is with the trucks not having enough swing? I would recommend that you go after the couplers first.Take one of the offending cars (by itself) and gently push it through the areas where it derails (when it is coupled to other cars in the train). If it rolls easily through the area and stays on the track then the trucks have plenty of swing. In that case the body-mounted couplers are the most likely culprit.
This really sounds like it could be related to body-mount couplers and overhang issues. If so, then trackwork might be part of the solution.My experience is that this is helped (but not eliminated) by both wider coupler swing and lower resistance to coupler swing - a stiff coupler is worse than one that swings easily. Easement curves will help most of all, and if done right can pretty much make the problem go away.
I know I'll get lots of eye-rolling, but is there any possibility to convert those cars to truck-mounted couplers? For decades we had N scale layouts with tight curves and we had no problems with long passenger cars (with truck-mounted couplers) running on those curves.There are still manufacturers (Kato is one) that use truck mounted couplers for passenger cars that have large overhangs. They sell lots of passenger sets and nobody seems to be complaining about tracking problems. Not prototypical, but reliable on our "compressed reality" layouts.Trainforfun: did you try the test I recommend to verify whether the trucks or couplers are the problem? You answered my post but in a vague roundabout kind of way.Let me also ask again: do these have their couplers solidly mounted on the car ends, or are they the "kinematic type" couplers that can swing to the sides? I suspect that I know the answer, but I just want to confirm.
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Topic: How to shorten KATO passengers axles ??? (Read 4245 times)
