(WORKING)Material Comparisons
It can be daunting to have literally hundreds of colors and materials to choose from.
PLA, PLA+, PLA-Pro, etc.
- Stiffest material
BendsGenerally bends less easilycomparativelythan other materials
- Hardest material
- Highest Brinell/Rockwell hardness
- Very poor temperature resistance
- Prints left in hot car will likely deform
- Very poor impact resistance
- A PLA hammer would likely become bits of shrapnel upon impact
- "+" and "Pro" modifiers vary wildly between manufacturers
- Make no assumptions about the modifiers, either look it up or test it before relying on a new material
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Opinions
- Best for aesthetic print quality
- Seems to creep under significant stresses
- Favorite material for prototyping (prototypes become finished products if they work the first time)
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Uses
- Anything that will live inside a home, but will not have significant stress
TPU, TPE, Flexible-PLA, etc.
- Softest material
- Has more in common with rubber than plastic
- Best impact resistance
- Adequate temperature resistance
- Innate flexibility can allow the material's use well above its glass transition temperature
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Opinions
- Medium to poor aesthetic print quality
- Printing a flexible material offers a new door of possibilities for home 3D printers
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Uses
- Anything that needs to be flexible or survive regular & significant impacts
PETG, PETG+, PETG-Pro, etc.
- Prints on most printers capable of PLA
- Adequate temperature resistance
ABS
- Requires higher temperature "All Metal" hot end
ASA
- Requires higher temperature "All Metal" hot end
PC
- Requires higher temperature "All Metal" hot end
PP
- Requires higher temperature "All Metal" hot end
PA, Nylon, etc.
- Requires higher temperature "All Metal" hot end
PE
- Requires higher temperature "All Metal" hot end