 I need to make a steel ring, and while it would be nice to have a ring roller, I don't have one right now, so I'm just going to improvise. Thinking, if I stick this between these two bolts, stand on this, yank up, it'll bend, then I can put it through a little more, bend it more, put it through a little more, bend it more, and hopefully, if I do that carefully, and check my circle a lot, I'll end up with a circle at the end. That's what I'm going for here. Not bad. Hope that's in the middle. Looks like I finally broke a tooth on the big gear right there. Just in time for replacement. Oh, right, this is bigger. New gear is totally bigger. Apparently, I measured the outside of this, the outside of this one, and I used that for the inside of this pipe. Let me just see if this will fit. I think this will fit okay still. I know this is asking a lot. Do it! Come on! It took a while, but I got it. I'm making all the sizes wrong. You're right. Just give me a minute with a file. Maybe I'm just drunk today. I actually do want to fit tight though, so it's good. Jamie, so you don't forget, once the wheel grazes the thing, turn this knob one and three-quarter turns past there to get the groove in, and then make a second groove one slot away, one hole away on this thing, to make the groove what looks like it should be wide enough. 240 cuts, two in each tooth space. Now I need to round them somehow, shape the teeth. Oh, that's a lot of teeth. Looks pretty good though. I think I'm going to have to make bigger grooves in this. Before I do that though, I want to make the small gear. I measured the diameter of this at the center of the teeth, and then from that, multiplied by pi to get the distance around, divided by that by 120 teeth to get the distance between teeth, then multiplied that times 12 to get the circumference of my small gear at the center of the teeth. Now the teeth are going to be about three millimeters deep, it looks like. So I added three millimeters to that, and I ended up getting just under three centimeters across, and that would be at the part of the gear that's right in the center of the teeth. And since this is beveled, the part on the outside is a little fatter, the part on the inside is a little thinner. So I just need to make sure the part that's right in the middle here is three centimeters in diameter, and this is a little more than three centimeters in diameter. So nice. It's solid too. It does have a hole at this end, but it doesn't go through. I'm going to have to cut this where there's no grooves. Yeah, so if I take a chunk out of there, I should be able to make a nice gear that fits with this. The cutting wheel has been doing not a terrible job. It is a little more flexible than desirable, and it slowly wears down, so I have to keep adjusting. You know, it's not bad. It's doing the job. I think I'm just going to angle grind it, eyeball it, try to get it as 90 degrees as I can, and then clean it up on the lathe. Straighten this out in this thing. This is going to take a while to drill this hole. Even want to see how long that took. I got some good drill bit sharpening practice on that one. Looks good. It's starting to look like a gear. Getting pretty close to fitting too. Clean this up a little bit and put a flat spot there because only this part of the teeth will be used so I can put a screw through there to hold it onto the axle. This guy is looking pretty good. Things seem to be running fairly smoothly. I think I can go put this on, I think. You know, before I started making these, I was thinking, whoa, making them out of stainless steel, that's going to be hard. Wasn't really that hard. I think it might have been because I was thinking it would be super hard. Obviously it didn't live up to that.