For tall prints on a moving bed, orient the part so that the longest surface dimension is parallel with the bed movement.
This makes it less likely to come loose due to inertia.
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For tall prints on a moving bed, orient the part so that the longest surface dimension is parallel with the bed movement.
This makes it less likely to come loose due to inertia.
When modelling, keeping all features of size larger than 3x your nozzle size, and adding fillets of 1-1.5x nozzle size to all sharp corners, really helps the slicer create clean edges. Modelling carelessly and letting features chamfer/fillet down to zero thickness geometry doesn't always translate to the slicer well.
Warpage/peeling from the bed is usually an adhesive, temp setting, or environment problem more than anything.
Oh boy, I keep a page just for this!.
I need to update it (for example, Arachne perimeters in PrusaSlicer now let you print extra thin perimeters), but it's useful to have a reference for common tolerances/dimensions like screw holes.
But a couple of my little additional pet peeves:
Personally, I don't use 3 perimeters on most of my prints. On my prusa, they look totally fine with 2 perimeters. I only switch to 3 if I need the strength (which also almost always means I'm printing in PETG, rather than PLA, FWIW).
One thing about the bottom edge fillets, they actually can work for small radii. More than 1.5mm will start to show issues, but because of how small curves slice, it actually works below this value.
Here is an alternative Piped link(s): https://piped.video/KBuWcT8XkhA
Piped is a privacy-respecting open-source alternative frontend to YouTube.
I'm open-source, check me out at GitHub.