Interesting idea, but not all that useful. I was expecting a pancake motor, since those are mostly flat plates. Printed circuit pancake motors, where the windings are printed circuit traces, do exist. The 3D printer setup they have ought to be able to make most of the parts for such a motor.
Good bearings will be tough. Their structural material is PLA, which is not a good bearing material. Nylon might work, but at some point you need to smooth out the bearing surfaces. That may be why they chose to make a vibrator, with flexures rather than bearings.
You don’t need CNCs for that you need a decent laser, the laminates used are super thin and either laser cut or stamped you can’t reliably machine them anyhow workholding would be near impossible.
I would be concerned that laser cutting steel degrades the magnetic permeability around the cut. I plan to use a clamping jig designed for PCBs. I could always upgrade to a vacuum table.
One of the applications I was really hoping for was for 3d printers to be able to, by themselves, do things you could ask a human to do. Insert components (like screws, nuts, nylon wire, ...) maybe even bend copper wires into place while printing a 3d model and, you know, just make that work.
Printing silver conductive ink, I mean nice and useful, I'm sure. But not quite what I need.
> One of the applications I was really hoping for was for 3d printers to be able to, by themselves, do things you could ask a human to do. Insert components (like screws, nuts, nylon wire, ...) [...] while printing a 3d model and, you know, just make that work.
Prusa is working on a Pick & Place Toolhead for the Prusa XL that is a step in this direction:
"One Print, Multiple Components: Pick & Place Tool
Some technical prints require additional components, such as magnets, threaded inserts, or bearings, to be placed during the build. Without automation, this typically means you have to pause the print and insert the part(s) by hand. Although PrusaSlicer made this process easier a while ago, The Pick & Place toolhead can do it for you, completely autonomously. This reduces manual intervention and improves placement accuracy.
We’ve co-developed the toolhead with the Zurich University of Applied Sciences (ZHAW) and it’s designed for models that combine 3D-printed models with off-the-shelf components. We’re currently targeting late 2026 with its implementation."
Interesting idea, but not all that useful. I was expecting a pancake motor, since those are mostly flat plates. Printed circuit pancake motors, where the windings are printed circuit traces, do exist. The 3D printer setup they have ought to be able to make most of the parts for such a motor.
Good bearings will be tough. Their structural material is PLA, which is not a good bearing material. Nylon might work, but at some point you need to smooth out the bearing surfaces. That may be why they chose to make a vibrator, with flexures rather than bearings.