Calling all gunsmiths, engineers and welders...
Do you know of a way of building up very small areas of a steel surface, to build up a rust-pitted surface? I would think TIG welding would be the way to go, but can you run a tiny bead onto a relatively large metal mass, like a pistol frame? And can you do it so that the periphery of the bead is entirely proud of the surface? I've seen scored hydraulic rams built up with electrolytically-deposited chromium, and know about metal-spraying, but are there more delicate, and, preferably, DIY methods?
Rust pitting
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Shooting Kiwi
- Posts: 321
- Joined: Fri Apr 20, 2007 3:33 am
- Location: New Zealand
Material: steel, alloy unknown.
Parts: slide and frame of pistol.
Reason: cosmetics, but structural integrity must be preserved.
Finish: machine / file / emery paper / re-blue (salt bath).
I accept that this is a fairly pointless endeavor. In this application, it is purely cosmetic. The rust pitting is very local and is probably only a few thou (mil) deep, but it's not possible to take down the surrounding surface until the pitting is removed.
The point that really interests me is whether it is possible to build up a steel surface on a very small scale, say about one mm square, and keep the heating of the component to an absolute minimum. I'm familiar with (some) large-scale surface recovery methods. I was even wondering about local electrolytic deposition, but I suppose it would have to be pure iron, which might not be ideal.
Parts: slide and frame of pistol.
Reason: cosmetics, but structural integrity must be preserved.
Finish: machine / file / emery paper / re-blue (salt bath).
I accept that this is a fairly pointless endeavor. In this application, it is purely cosmetic. The rust pitting is very local and is probably only a few thou (mil) deep, but it's not possible to take down the surrounding surface until the pitting is removed.
The point that really interests me is whether it is possible to build up a steel surface on a very small scale, say about one mm square, and keep the heating of the component to an absolute minimum. I'm familiar with (some) large-scale surface recovery methods. I was even wondering about local electrolytic deposition, but I suppose it would have to be pure iron, which might not be ideal.