It has been another month, and while my progress moves as fast as a glacier, I'm still working on things.
Let me start with the hardest part to measure, the cylinder. In
post 129, I said that I had found that the cylinder was tapered so that the combustion chamber end was wider than the entrance end, and if I could get the piston into the cylinder it would be looser in the most important zone. That told me it seemed like it would be better to open up the entrance to the cylinder (the bottom) so that it's at least as big as the combustion end. If I made the opening too big, that's better than the way it was.
I had measured it before and wanted to verify the measurements so I retook all the measurements and they were the same, which is a good thing. I set up the lathe to carefully trim the inside diameter of the cylinder. I made a cut that should have taken .001" diameter off the first 3/4" of an inch of the bottom. There was virtually no metal taken off - it looked more like dust than chips. I thought I must have made a mistake setting up, so I reset the tool to the start of the cut and set it to take off another .001". Again, no evidence of chips, just some fine scrapings of dust. The micrometer and telescopic gauge were telling me that the diameter hadn't changed, saying that it wasn't cutting. This went on a few more times until I had to think even I couldn't be that screwed up and the settings on the lathe couldn't possibly be right. Still no evidence of cuts. I stopped trying to cut, thinking I'd eventually mess it up if I kept going.
After a few days of trying to figure out what was going wrong, I took a look at the carbide insert on my boring bar with a 10x magnifier and thought it seemed too rounded; perhaps the cutting edge was pushing the steel away from the tool at the contact point rather than shearing some off? I rotated the insert to get a fresh point and started cutting without changing the lathe settings at all. As soon as the tool touched the cylinder wall, I could see chips coming off, and before the tool had cut 1/8" into the length, I saw it was taking off too much. Eventually I got a bell mouth by about .002 to .003.
Last weekend, I had ordered replacement piston rings for the two I broke - and two spares. They got here Wednesday. After a couple of days of consistent measurements of the cylinder, I took it off the lathe and put the piston back. Friday, I addressed the single biggest problem I had seen with the piston: the grooves were too tight and the ring wouldn't go to the bottom of the groove. Using the same cutoff tool I used to cut the grooves, I got my positions reset and took off .002 of width on each ring's groove. How much gap should there be on the sides? I don't have any .001 or .002" shim material, or a feeler gauge that thin.
You can see a little light under the ring in each groove (the rings are called out at 3/32" wide but measure a little short of that: 0.090". I haven't tried to install the rings, yet - I want to remeasure another dozen times since I don't know how to remove a ring if it's not right.
The drawing for the piston (sheet 6) shows the bottom of the ring grooves as a reference dimension and if you take the reference (0.771) from the nominal dimension of the piston (0.873), that says the groove should be .051 deep. My piston's OD is right around 0.878, not 0.873. Should I try to keep the depth 0.051? I'm using the piston rings from Dave Reed as called out in the drawings. I think the rings were .044 thick.
I've spent a lot of my time making myself go to school on measuring ID with the telescopic gauges and just generally measuring better.
