Comment on Need help with printer recommendations
KingRandomGuy@lemmy.world 3 days agoHaving a way to dry filament is a good idea. You can do so with a cheap food dehydrator or a dedicated filament dry for the purpose.
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.
Bluewing@lemmy.world 2 days ago
An air fryer is an interesting idea if you happen to have one handy. But even dedicated filament dryers are a bit cheaper to buy, let alone a used dehydrator. And few people are using expensive engineering filament either to scratch build
KingRandomGuy@lemmy.world 1 day ago
That’s all fair! For myself I use a lot of PET-CF, especially annealed. For some applications you can get away with the stiffness and the creep resistance provided by annealed PET-CF rather than needing a machined part, so for me an air fryer or equivalent is a must (for both drying and annealing). I build stuff for astrophotography, so having a material that is heavily resistant to creep and is also stiff is a must.
I’ll note that for PETG, if your print is under nontrivial load, it will probably start to deform well below the 80C mark. Continuous use I believe is about 70C. Though because PETG is so inexpensive, you can always just reprint as long as assembly isn’t too difficult.
You’re right that PLA, PETG, and TPU are like 90% of anyone’s needs though.
Bluewing@lemmy.world 11 hours ago
Special needs often require special materials. You have special requirements and can use those materials. When I have special needs for materials, I just walk up to my garage and machine things out of metals. I have a lathe, mill, drill press, air compressors, and welders. But, I’m that extreme outlier your momma warned you about…Not everyone has the room, knowledge and skills to do that. So, 3D printing is a very good substitute for most people.
Still, don’t dismiss those ‘basic’ filaments either. I have made more than one bending die set to bend up to 10ga/3mm steel out of the cheapest most basic PLA I can buy. It won’t last for 10,000 parts, but I know can can get a dozen bends from it. And more depending on the material and thickness of it. And no, it doesn’t take 100% infill either. 15% or 20% infill is enough. It’s all about the number of walls.
Experiment, try, fail, succeed, and most important, have fun learning.