0 Members and 1 Guest are viewing this topic.
From a wish to a reality, and it only took 20 pages of discussion here to make it happen!Rich K.
I have been working up to commitIng time to teach myself 3D CAD so I can justify investing in a resin printer....no sense in having another toy in a box here. The software is supposed to arrive tomorrow. One of the first projects I want for myself are variations of CB&Q wood waycars, so this thread is valuable to me.One contribution....a soldering pencil with an X-Acto blade to melt thru the supports might be better than a nipper or cut-off saw. I discovered this on InterMountain kits where the brakewheel and some other parts are easily ruined when trying to free a delicate part from a heavy sprue. Once free of the supports there is no pressure on the part when the nubs are trimmed off, and the part can be positioned so the job is easier.Charlie Vlk
Nope. The resin is near glass for heat. I doesn’t melt it just desintegates. I’ve actually ised it for casting lead. No joke. It only works once, but it does work.
Now there is an idea. Maybe use 3D printing to make molds for making shells for locomotives or flat cars or underframes using poured lead. Having cast some bullets, that seems doable if the mold is not too intricate from the pour point(s). The casting doesn't have to be perfect as it comes out of the mold (like a rifle bullet) because we can putty it as-needed. The idea would be to get pulling power into the locomotive assembly or anti-stringlining weight into otherwise too-light cars.(Of course, it would also require some of those stickers about containing materials known to damage Californians. )
Nice test, Lemosteam.People have also mentioned doing the 3D printing shell itself in "metal", but I am not familiar with what that means. Are they really able to print with a lead alloy, or is it resin with a lot of metal power in it? What is the physical density of the cured print?