So I’ve decided to get “back” into 3d printing. I was getting into it in 2012 and I started assembling a kit, but then life happened and I never had enough time or room to complete it.
However, now I’m in a much better place (both literally and figuratively), so I’ve decided to dive back in. However, last time around it seemed that almost everything was some variant of Prusa, and I think I want to go in a less DYI direction this time.
- Once calibrated, doesn’t need much fidgeting or maintenance.
- More or less prefabricated. Some assembly is fine, but I don’t want to sit there an dremmel a hobbled bolt again, or build a power supply.
- I prefer one of those enclosed printers, as it will be in a location with minimal climate control.
- Must not rely on any software that does not run on linux
- I’m not too worried about printing speed. Print quality matters more to me.
- Preferably one that is fixable if it breaks.
- Single filament is fine.
- Don’t need wifi
Any suggestions?
Oh, and I still have a spool of ABS around here somewhere… Is this still a reasonable material choice? Any other materials worth considering if I prefer the prints to be durable and not brittle?
This is where I could list a budget or preferred price range, but purchasing power parity and exchange rates probably complicates this, so let’s just say “reasonably priced”
UPDATE: I ordered a Prusa Core One. I went for the kit, as I will hopefully better understand how I can fix it later after assembly. I threw in a spool of PETG as well, as I’m curious about the material.
My favorite way is an air fryer, as it can actually hit the temperatures needed for certain engineering filaments (ASA-CF, PET-CF, PPS-CF) and the forced air combined with the fact that they aren’t sealed tends to be more effective than the spoolholding dryers. I then print from a dry box made from cereal boxes with molecular sieves. This is overkill if you are just printing standard filaments though (PLA, PETG, TPU, etc.)
I’ll add that there are still fairly common situations when you’ll want ABS/ASA: If you’re building something with stepper motors (say parts for a printer), ABS/ASA’s higher temperature resistance means you can push more current through your motors without deforming the print where the motor is mounted. This is of course especially helpful if you’re putting parts into a heated chamber, where PETG will likely start to deform under prolonged use at 60C+ temperatures. ABS/ASA are also more rigid, so they’re better for high speed printer parts. Finally, if you’re putting something in a car in a hot environment, PETG will not really hold up, but ASA will.