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For Printer Bed Temperature
Easy-Print PLA 3D Printer Filaments
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Black |
The most commonly used 3D printing material, these PLA filaments make detailed parts at a low melting point, so they won’t warp as they cool, rarely clog nozzles, and don’t require a heated printer bed. They’re also unlikely to drip and produce plastic strings for a clean finished part. In general, they’re best for printing prototypes instead of load-bearing parts since they’re not as strong as ABS or as heat resistant as PEEK. Print them on a fused filament fabrication (FFF) 3D printer.
Filaments with an annealing temperature can be heat treated to make parts harder, stronger, and better at resisting heat. To anneal, heat your finished part to the listed temperature and then let it cool slowly.
Maximum exposure temperature is the point at which a printed part will begin to deform. Above this temperature, your part will start to lose structural integrity. Filaments that can be annealed are also rated for maximum temperature after annealing, which is the new maximum exposure temperature once that process completes.
Conductive—Conductive PLA filaments are best for creating circuit prototypes and other conductive pathways. To adjust the surface resistivity of your printed part, change the temperature of your printer’s extruder. As the extruder’s temperature increases, the printed part’s resistivity will decrease.
Tensile Strength—Tensile strength is the best measure of a filament's overall strength. Similar to the stress applied on a rope during a game of tug-of-war, it's the amount of pulling force a material can handle before breaking. A higher rating means a stronger filament. A tensile strength of 5,000 psi and above is considered good; 12,000 psi and above is excellent.
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Dia., mm | Printing Temp. | For Printer Bed Temp. | Tensile Strength | Surface Resistivity | Hardness | Max. Exposure Temp. | For Min. Nozzle Opening Dia., mm | Dia., mm | Dp., mm | Material | Wt., g | 1-9 | 10-Up | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Conductive PLA | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Opaque Black | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| 1.75 | 195° to 225° C 383° to 437° F | 21° to 60° C 70° to 140° F | Not Rated | 30Ω⋅cm | Not Rated | 60° C 140° F | 0.4 | 200 | 50 | Cardboard | 500 | 1317N17 | 000000 | 000000 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| 1.75 | 195° to 225° C 383° to 437° F | 21° to 60° C 70° to 140° F | Not Rated | 30Ω⋅cm | Not Rated | 60° C 140° F | 0.4 | 300 | 100 | Cardboard | 2,000 | 1317N15 | 000000 | 000000 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| 2.85 | 195° to 225° C 383° to 437° F | 21° to 60° C 70° to 140° F | Not Rated | 30Ω⋅cm | Not Rated | 60° C 140° F | 0.4 | 200 | 50 | Cardboard | 500 | 1317N18 | 00000 | 00000 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| 2.85 | 195° to 225° C 383° to 437° F | 21° to 60° C 70° to 140° F | Not Rated | 30Ω⋅cm | Not Rated | 60° C 140° F | 0.4 | 300 | 100 | Cardboard | 2,000 | 1317N16 | 000000 | 000000 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Flexible TPU 3D Printer Filaments
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Black |
Stretchy, soft, and sturdy, these filaments make durable parts that resist breakage despite repeated use. Stronger than ABS and PLA filaments, they create long-lasting parts, such as seals, sleeves, and gaskets, as well as components that take on high-impact forces, such as springs and snap-fit parts. These filaments don't require a heated printer bed, and they won't shrink or warp when cooling. Use them with a fused filament fabrication (FFF) 3D printer. In general, these flexible filaments require a slow feed rate so they don't jam. The softer your filament, the slower your feed rate will need to be. Store them in a sealed container with a desiccant, or use a dehumidifying cabinet, since ambient humidity will cause the plastic to degrade and weaken.
Maximum exposure temperature is the point at which a printed part will begin to deform. Above this temperature, your printed parts will start to lose structural integrity.
Conductive—Conductive filaments can be used to create circuit prototypes and other conductive pathways. You can adjust the surface resistivity by changing the temperature of your printer's extruder. As the extruder’s temperature increases, the printed part’s resistivity will decrease.
Tensile Strength—Tensile strength is the best measure of a filament's overall strength. Similar to the stress applied on a rope during a game of tug-of-war, it's the amount of pulling force a material can handle before breaking. A higher rating means a stronger filament. A tensile strength of 5,000 psi and above is considered good; 12,000 psi and above is excellent.
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Dia., mm | Printing Temp. | For Printer Bed Temp. | Tensile Strength, psi | Surface Resistivity | Max. Exposure Temp. | For Min. Nozzle Opening Dia., mm | Dia. | Dp. | Wt., g | Color | Each | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Conductive TPU Plastic—Durometer 90A (Medium Soft) | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| 1.75 | 220° to 230° C 428° to 446° F | 45° C 113° F | 1,700 | 1.5 × 10^3Ω⋅cm | Not Rated | 0.4 | 200 | 50 | 1,000 | Opaque Black | 3516N11 | 0000000 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| 2.85 | 220° to 230° C 428° to 446° F | 45° C 113° F | 1,700 | 1.5 × 10^3Ω⋅cm | Not Rated | 0.4 | 200 | 50 | 1,000 | Opaque Black | 3516N12 | 000000 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
