I have been using an entire hub assembly as an adapter to balance 8 lug wheels on my old Snap On tire balancer. The tire, rim, hub assy, and the balancers shaft and cones are really heavy, so I thought that I would lighten it up. It was too big for my bandsaw, so I had to think of another way.
The chuck on my rotary table was just big enough to hold the rotor.
That is an ordinary carbide circular saw blade. I cut .025" per revolution.
I finished my 2-1/2" steady rest for my mini-lathe. I used precision stainless steel shielded ball bearings (R188-2Z) from McMaster-Carr. I used OSH Cut to plasma cut the main ring to save me a lot of time machining that part.
I used my dividing head and offset a 3/8" end mill to the 45 degree position so the corner of the cutter cut a V groove. I made 16 grooves. I hope that makes sense.
I'll chime in on what I learned on youtube (NOT FIRSTHAND) from multiple utube personalities.
Using a bearing requires an absolutely clean path for the steady rest. With a bearing, the chip will wind up going through the bearing and turned piece, get squished and wind up pushing the turned piece off center.
With a brass finger, it's more like a wiper and reduces the chance of being pushed off center.
Both are valuable, but there are different advantages / risks. I am making a rub version.
I finished my 2-1/2" steady rest for my mini-lathe. I used precision stainless steel shielded ball bearings (R188-2Z) from McMaster-Carr. I used OSH Cut to plasma cut the main ring to save me a lot of time machining that part.
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