https://www.youtube.com/watch?v=6Js8erWbsDQ

video description text:

Want to see more tools like this? Im a finalist in the Prusa awards and winning would fund literally dozens of tools like this and help me keep the files free!

https://www.printables.com/awards     (vote for the ball vise, its bright orange :) )

Parts: Uploading tomorrow morning

Music: Minecraft soundtrack

Like subscribe all that stuff

0:00 intro

1:12 build

4:30 concrete time BAYBEEE

6:01 ready to use

9:58 thoughts My name is Chris, I am a 3D printing hobbyist from australia. I dont really specialise in anything specific, but 3D printed tools and tabletop accessories are some things youll probably seen quiet often. I do all my 3d printing on a Ender 3, which I highly recommend as a budget printer. Currently I only run 1 printer but I hope to expand that in the future. Recently acquired a photon 0 to do resin printing with. I like to share all my 3D printing ideas for free although I do plan to sell stuff in the future. Most of my projects will be mostly 3D printed with a few non printed components included, these can often be found on ebay. I actually use the cheapest filament I can get for all my projects, again I hope to change this in the future.

I’ve been watching Chris’ lathe builds for awhile. This concrete pour seems like a really useful idea. The lessons learned and advice given here are valuable insights into the practical aspects of this technique.

My main underlying curiosity is what happens when such a methodology is used to create automated single purpose machines.

  • bluewing@lemm.ee
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    25 days ago

    The short story is that all materials have internal stresses when made. Whether it’s lumber or steel or cast iron, they all have stress that need to be relieved before you can expect them to hold their shape. Some materials are worse than others. And anytime you cut or machine them, they can move in unexpected ways that can make your parts not fit together as required to make a working machine.

    A “green” iron casting has a LOT of internal stresses created by the rather violent process of making the casting. Even way back in the day, they understood the problems that those green castings had. And if you want your lathe to be stable enough to hold those tight tolerances to build a train steam engine or bore an accurate cannon barrel you needed to get as much of that stress out of those lathe bed and head-stock castings as possible before you carefully machine and scrape the ways on your lathe into perfection so that the casting becomes as stable as possible.

    The best method of relieving those stresses from your raw castings was to repeatedly heat and cool that casting. And the easiest and best way to achieve that was to literally store those castings outside for a few years to let them naturally heat and cool with the changing seasons. If you go on YouTube, you can find videos of British steam engine manufacturing from start to finish. And at some point you will see their outside yard filled with raw castings aging in the natural heat and cold of the changing seasons.

    We still age cast iron to today to make it stable enough to use. But we now use accelerated methods of stress relieving metals that are much faster, but more costly.