In other news, if you try to upload a file named uncalibrated_example.stl
to Thingiverse, it fails with no error message, because somewhere they have a pr0n filter searching for rated*x.
Some people might find this bundle_scad.py code useful. It combines an STL, SCAD, and all its dependencies into a single file.
Cool!
That is interesting. I’m professionally curious about the drive mechanism for the oscillation pattern on these now. As a former auto body shop owner and painter, I would not expect this to be free of mechanical error like a high quality pneumatic dual action sander, but it is an interesting idea. In fact I can imagine taking this to another level and creating a thin sanding blade like design with Emory paper, to use in very tight slots.
Does mechanical error actually matter when using sandpaper? It seems like most of the error comes from holding the tool with your hands.
It does matter for automotive-class perfection. You will have hot spots develop that dig deeper than the rest of the surface. We are talking about mirror gloss perfection though. You are likely not working on a project of this scale/class.
Patterns can emerge from resonant frequencies (https://www.youtube.com/watch?v=wvJAgrUBF4w). The dual action of a “DA” sander is made to cancel out the resonance.
I don’t know how to tell you this but this already exists. Get a Oscillating Multi tool pack at the store and it comes in all of them. I have three different ones.
Yeah, but those sanding pads cost more than generic sandpaper.