Material compatibility
Which 3D printers can print Nylon (PA)
Very strong with good wear resistance; absorbs moisture.
What the printer needs
Nozzle ≥250 °C, an enclosure and well-dried filament.
What it's used for
Gears, hinges, wear/impact parts.
Print it without issues (33)
Artillery M1 Pro Yes. It reaches 320 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Elegoo Centauri Carbon Yes. It reaches 320 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Elegoo Centauri Carbon 2 Yes. It reaches 350 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Creality K2 Yes. It reaches 300 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes QIDI Tech Q2C Yes. It reaches 370 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes QIDI Tech X-Smart 3 Yes. It reaches 300 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Flashforge Adventurer 5M Pro Yes. It reaches 280 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes QIDI Tech Q1 Pro Yes. It reaches 350 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes QIDI Tech Q2 Yes. It reaches 370 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Creality K1C Yes. It reaches 300 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Creality K1 Yes. It reaches 300 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Sovol Zero Yes. It reaches 350 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Bambu Lab P1S Yes. It reaches 300 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes QIDI Tech X-Plus 3 Yes. It reaches 350 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes QIDI Tech Plus4 Yes. It reaches 370 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Creality K2 Pro Yes. It reaches 300 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Snapmaker U1 Yes. It reaches 300 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Flashforge Creator 5 Pro Yes. It reaches 320 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Creality K1 Max Yes. It reaches 300 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes QIDI Tech X-Max 3 Yes. It reaches 350 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Bambu Lab H2S Yes. It reaches 350 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes QIDI Tech Max4 Yes. It reaches 370 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Bambu Lab X1 Carbon Yes. It reaches 300 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Prusa Research CORE One Yes. It reaches 290 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Prusa Research CORE One+ Yes. It reaches 290 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Creality K2 Plus Yes. It reaches 350 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Snapmaker J1s Yes. It reaches 300 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Prusa Research CORE One L Yes. It reaches 290 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes UltiMaker MakerBot Sketch Sprint Yes. It reaches 280 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Bambu Lab H2D Yes. It reaches 350 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Bambu Lab X1E Yes. It reaches 320 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Snapmaker Artisan Yes. It reaches 300 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes Flashforge Guider 3 Ultra Yes. It reaches 350 °C and is enclosed: it prints Nylon (dry it well first). For carbon-fibre variants, use a hardened-steel nozzle. ✓ Yes
Print it with caveats (36)
Creality Ender 3 V3 SE With caveats. It reaches 260 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Elegoo Neptune 4 Plus With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Elegoo Neptune 4 With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Anycubic Kobra 2 With caveats. It reaches 260 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Creality Ender 3 V3 KE With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Creality K2 SE With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Bambu Lab A1 Mini With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Flashforge Adventurer 5M With caveats. It reaches 280 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Sovol SV06 ACE With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Elegoo Neptune 4 Pro With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Artillery Sidewinder X4 Plus With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Sovol SV06 Plus ACE With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Anycubic Kobra 2 Pro With caveats. It reaches 260 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Anycubic Kobra 3 With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Anycubic Kobra 4 With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Bambu Lab A2L With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Anycubic Kobra X With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Bambu Lab A1 With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Creality Ender 3 V3 With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Creality Ender-3 V3 Plus With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Creality SPARKX i7 With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Prusa Research Mini+ With caveats. It reaches 280 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Elegoo Neptune 4 Max With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Sovol SV07 Plus With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Creality Ender 5 S1 With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Flashforge AD5X With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Flashforge Adventurer 5X With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Creality Hi Combo With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Sovol SV08 With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Flashforge Creator 5 With caveats. It reaches 320 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Creality Ender-5 Max With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Prusa Research MK4S With caveats. It reaches 290 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Sovol SV08 Max With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Prusa Research XL With caveats. It reaches 290 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats Elegoo OrangeStorm Giga With caveats. It reaches 300 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats UltiMaker S3 With caveats. It reaches 280 °C but is open-frame; Nylon warps in drafts and absorbs moisture. Enclosure + drying almost mandatory. For carbon-fibre variants, use a hardened-steel nozzle. ≈ With caveats