Repairing cracked gear/axle tubes in vintage Bachmann locos
Those cracked axles are very common to many older Bachmann locos. 2-axle (like in GP50, U36B), and 3-axle (like in SD40-2 or E60) trucks. Even the steam locos from that period (like 2-8-2 and 2-8-0) which utilize white-colored Nylon axles/gears are susceptible to cracking. Even when they later started molding axles from softer black material (POM or Delrin maybe?) those were also susceptible to cracking.
Easiest way to fix the problem would be to purchase replacement wheelsets or even complete trucks from Bachmann, but those are long out of production. I had an idea for how to fix these for a long time, but never followed up on it But with the recent interest in the vintage N scale models by some of the Railwire members, I decided to take a stab at this.
BachmannCrackedAxles01.jpgHere is an example of cracked axle/gear in both, white and black material. These wheelsets are from a U36B loco.
Sometimes just the axle tube cracks. That can cause the metal axle to slip in the plastic tube, and that results in poor pulling ability. But even more often the crack also extends to the gear. Cracked gear is distorted, causing rough running and clicking noise, in addition to poor pulling ability. Sometimes the metal axle is so loose in the cracked tube that the wheel will actually fall out of the truck.
There could be several reasons why these crack, but one I can easily see contributing to the problem is sloppy manufacturing tolerances! I measured the metal half-axles which get inserted into those axle tubes and I found them to vary in diameter from 0.061" all the way to 0.065"! That is quite a range. The thicker the metal axle is, the more stress it will produce inside the plastic axle, usually cracking it after some time.
My idea for the fix involves installing a thin metal (brass) collar over the cracked tube. That will close the gap in the tube, and also in the cracked gear and keep it closed even after the metal axle is installed.
This is what a repaired wheelset looks like:
BachmSplitGearRepaired01.jpgThe axle tubes are 3.00mm (0.118") in diameter. I was not able to find any thin-wall brass tubing which would have 3.00mm ID (inside Diameter). I might have been able to find stainless (hypodermic) tubing, but I didn't want to deal with such a hard material, plus I already had some 0.125" (1/8") diameter thin-wall (0.006") brass tubing I bought years ago from Special Shapes Co. SSC has been acquired by K&S Metals, and while K&S discontinued most of Special Shapes product, the thin-wall brass tubing is still available.
But the ID of that brass tube is 0.114", while the axle tube is 0.118". To deal with that I ended up reducing the diameter of the plastic axle tube by 0.004" to create a tight fit for the brass collar. Having a lathe in my workshop makes this job easy, but I suppose that chucking the axle tube in a Dremel, and using a file to reduce the diameter should work too. Chucking the axle tube in a chuck for turning/filing also closes up the gap.
BachSplitAxleCollar02.jpgFirst I made the collars. They have to be 0.050" long (slightly shorter than how much the axle tube protrudes from the gear). I sliced those off from the brass tube using my lathe and a cutoff tool.
BachSplitAxleCollar03.jpgBefore cutting each collar off the tube, using a hobby knife (while the lathe was running), I deburred the inside edge of the tubing, and chamfering the opening to make installing it on the axle tube easier. In this photo, the left collar has that chamfered end up.
BachSplitAxleCollar04.jpgI made enough collars for the job, plus few extras in case I lose few. These are shown before the other end was deburred. To deburr such short pieces I chucked them in a pin vise (with 1/8" chuck) and then used a hobby knife to clean up the edge. Deburring bit would also work.
BachmSplitGearFix02.jpgI then chucked the split axles in my lathe, and reduced their diameter by 0.004" I made sure to install them in the 3-jaw chuck in such a away that the pressure from the chuck would close the gap.
BachmSplitGearFix03.jpgNext, I pushed the collar onto the axle tube. It should be a tight fit. Or using a pin vise, press down on the gear.Repeat for the second collar.
BachmSplitGearFix04.jpgNow chamfer the edge of the hole in the axle tube to ease the re-installation of the metal axles. I simply chucked the assembly in a pin vise and used a hobby knife to trim away the plastic.
BachmSplitGearFix05.jpgNext, reinstall the metal axles/wheels back into the axle tubes. It should now be a tight fit.
BachmSplitGearFix06.jpgIf (due to the loose tolerance when the metal axles were machined and the metal axle diameter being too thick) the metal axle will now not fit into the collared axle tube, take a 1/16" (0.0625") drill bit and drill out the hole in the axle tube. Since each wheel/axle seems to be slightly different, I like to reassemble the wheelsets using all original parts. I make sure to keep track which axle/gear mates with which wheel/axle pair.
BachmSplitGearRepaired02.jpg
BachmSplitGearFix07.jpgThat's it - once everything fits, disassemble the wheelsets (again keeping tracks of which wheels go with which axles) and reinstall them in the truck frame.
No more falling out wheels or clicking noise while running.I also came up with an alternate collar construction for the cracked axle tubes with offset gear (like the ones used in Bachmann steam locos). I used this method to fix Lee's 2-8-2 loco. This method can also be used to fix the above mentioned axle tubes without need for turning their diameter down.
Bachm2-8-2GearRepair01.jpgI still used the same 0.125" thin-wall brass tube, but instead of reducing the diameter of the axle tube, I "stretched" the tubing to 0.118" (3.00mm) diameter.
To enlarge its diameter I sliced through the tube, then spread it, and soldered a patch to fill the gap.
1. The gear to be repaired. Actually it is not the original Bachmann gear, but a 3D printed replacement gear. Looks to be printed in FUD material. But (probably due to to the loose Bachmann tolerances), the metal axle was overly thick, and split this replacement axle tube.
2. Collar cut from 0.125" tubing, ready to be sliced. Notice that I sanded the outside surface (before cutting it off tubing stock) to prepare it for soldering.
3. Collar with a slice through it,
4. Collar stretched to its final size. I stretched it by carefully sliding it up a conical mandrel (made from a dental tool). Using the mandrel assured that the collar would remain undistorted circular shape, even when stretched. If I just spread it at the slice, it wouldn't have retained circular shape.
5. Strip of 0.002" tempered copper sheet. It is actually copper cladding material I peeled from a PC board. I cut a strip of it (on the right), then scraped it with a hobby knife to remove the adhesive and make it ready for soldering. I wrapped it around a drill bit shank (smaller than 0.125") to form into a curvature which will match the curvature of the brass collar (the strip will spring out slightly after being formed).
6. Slice of the copper strip which will be soldered to the collar.
7. Hole drilled into piece of hardwood which will hold the collar and copper strip for soldering.
Bachm2-8-2GearRepair02.jpgCouple of collars after soldering. I used TIX Flux (zinc chloride) acidic flux because it works really well on these non-electrical parts. The collars were then washed to move remains of the flux and the inside-facing solder joint was smoothed out with a jeweler's rat-tail file.
Bachm2-8-2GearRepair03.jpgOn the left is a collar installed on a cracked axle tube. On the right is one that is not cracked, but will receive a collar to prevent it from cracking in the future. For these collars I did apply some CA glue in between the collar and axle tube - just in case . . .
These repairs should be permanent. No more split axles!
