Flame-Retardant Impact-Resistant 3D Printer Filaments

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31 Products

Impact-Resistant ABS 3D Printer Filaments


Black	Blue	Gray

Green	Orange	Red

White	Yellow	Beige

Bumps, scrapes, and falls won’t damage these tough ABS filaments. Known for their durability, they absorb impact without cracking or breaking, and won’t degrade when heated. Use them to print tool handles, storage cases, and other parts that are handled or dropped frequently. These filaments are a good place to start if you’re experimenting with printing impact-resistant parts.

Use with a fused filament fabrication (FFF) 3D printer. These filaments have a high melting point and must be printed onto a heated bed. Without it, parts will cool too quickly and warp. These filaments also release fumes as they are printed, so use an enclosed printer or a fume exhauster to ventilate them.

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.

Carbon Fiber Filled—Carbon-fiber-filled ABS filaments make rigid parts that are difficult to bend and break. Their parts can also be threaded and machined more easily than ABS filaments without a filler. Carbon-fiber-filled filaments are abrasive, so you should use them with an abrasion-resistant nozzle. They will wear out other nozzles.

Fiberglass Filled—Fiberglass-filled ABS filaments make parts that are stronger and less likely to warp or shrink than ABS filaments without a filler. Fiberglass-filled filaments are abrasive, so you should use them with an abrasion-resistant nozzle. They will wear out other nozzles.

ABS/Polycarbonate—For heavy impact, use ABS/polycarbonate filaments. The polycarbonate adds strength to printed parts.

UL 94 V-0—Filaments rated UL 94 V-0 meet strict flammability standards. Use them to create holders, guards, housings, and other parts that protect sensitive, flammable equipment and machinery.

Static Dissipative—Static-dissipative filaments make parts that protect equipment from electrostatic shocks by diverting electrostatic discharges in a controlled way. Use them to create tool handles, tote trays, enclosures, and other parts that are used near sensitive electronics. 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.

								Spool, mm
	Dia., mm	Printing Temp.	For Printer Bed Temp.	Tensile Strength, psi	Surface Resistivity, ohm/sq.	Max. Exposure Temp.	For Min. Nozzle Opening Dia., mm	Dia.	Dp.	Wt., g	Choose a Color		Each
ABS—Extra High Strength, High Strength, Highly Absorbent, Impact Resistant, Moisture Resistant, Spark Resistant, Static Dissipative



		1.75	220° to 240° C 428° to 464° F	100° to 110° C 212° to 230° F	8,410	1× 10^7 to 1× 10^9	97° C 207° F	0.4	200	75	750	Black	3481N13	000000


		2.85	220° to 240° C 428° to 464° F	100° to 110° C 212° to 230° F	8,410	1× 10^7 to 1× 10^9	97° C 207° F	0.4	200	75	750	Black	3481N14	00000


		ABS—Extra High Strength, Highly Absorbent, Impact Resistant



				1.75	220° to 240° C 428° to 464° F	100° to 110° C 212° to 230° F	6,090	—	90° C 194° F	0.25	195	75	1,000	Black, Blue, Gray, Green, Orange, Red, White, Yellow, Beige	1317N537	00000


				2.85	220° to 240° C 428° to 464° F	100° to 110° C 212° to 230° F	6,090	—	90° C 194° F	0.25	195	75	1,000	Black, Gray, White	1317N538	00000


				ABS—UL 94 V-0—Extra High Strength, Flame Retardant, High Strength, Highly Absorbent, Impact Resistant, Moisture Resistant



						1.75	220° to 240° C 428° to 464° F	100° to 110° C 212° to 230° F	6,520	—	95° C 203° F	0.4	200	75	750	Black	3665N411	00000


						2.85	220° to 240° C 428° to 464° F	100° to 110° C 212° to 230° F	6,520	—	95° C 203° F	0.4	200	75	750	Black	3665N412	00000


						ABS/Polycarbonate—UL 94 V-0—Extra High Strength, Flame Retardant, High Strength, Impact Resistant



								1.75	265° to 285° C 509° to 545° F	110° to 120° C 230° to 248° F	8,700	—	125° C 257° F	0.4	200	75	750	Black	3665N15	00000


								Carbon Fiber-Filled ABS—Extra High Strength, High Strength, Highly Absorbent, Impact Resistant



										1.75	220° to 240° C 428° to 464° F	100° to 110° C 212° to 230° F	6,670	—	76° C 169° F	0.4	195	55	750	Black	1317N311	00000


										2.85	220° to 240° C 428° to 464° F	100° to 110° C 212° to 230° F	6,670	—	76° C 169° F	0.4	195	55	750	Black	1317N312	00000


										Fiberglass-Filled ABS—Extra High Strength, Impact Resistant



												1.75	230° to 245° C 446° to 473° F	95° to 110° C 203° to 230° F	9,862	—	89° C 192° C	0.4	198	62	750	Black	1317N415	00000

UV- and Impact-Resistant ASA 3D Printer Filaments

Black

Blue

Gray

White

Best for outdoor use, parts made from these ASA filaments are UV resistant, so they won't warp or crack from prolonged sun exposure. They’re also durable, so they absorb impact without breaking and won’t degrade when heated.

Use with fused filament fabrication (FFF) 3D printer. These filaments have a high melting point and must be printed onto a heated bed. Without it, parts will cool too quickly and warp. These filaments also release fumes as they are printed, so use an enclosed printer or a fume exhauster to ventilate them.

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.

							Spool, mm
	Dia., mm	Printing Temp.	For Printer Bed Temp.	Tensile Strength, psi	Max. Exposure Temp.	For Min. Nozzle Opening Dia., mm	Dia.	Dp.	Wt., g	Choose a Color		Each
ASA



		1.75	235° to 255° C 455° to 491° F	90° to 110° C 194° to 230° F	6,520	95° C 203° F	0.4	200	75	1,000	Black, Blue, Gray, White	1317N541	000000


		2.85	235° to 255° C 455° to 491° F	90° to 110° C 194° to 230° F	6,520	87° C 188° F	0.4	198	78	1,000	Black, White	1317N548	00000

High-Strength Impact-Resistant Polycarbonate 3D Printer Filaments

Create strong, durable parts that carry heavy loads and absorb blows and other impact without cracking or breaking. Made of polycarbonate, these filaments are stronger and resist heat better than other impact-resistant filaments, such as those made from ABS or ASA.

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.

Carbon Fiber Filled—Carbon-fiber-filled polycarbonate filaments make rigid parts that are difficult to bend and break. Parts made from these filaments can also be threaded and machined more easily than parts made from polycarbonate filaments without a filler. Carbon-fiber-filled filaments are abrasive, so you should use them with an abrasion-resistant nozzle.

Fiberglass Filled—Fiberglass-filled polycarbonate filaments make parts that are less likely to warp or shrink than parts made from polycarbonate filaments without a filler. Fiberglass-filled filaments are abrasive, so you should use them with an abrasion-resistant nozzle.

UL 94 V-0—UL 94 V-0 rated filaments meet strict flammability standards. Use them to create holders, guards, housings, and other parts that protect sensitive, flammable equipment and machinery.

									Spool
	Dia., mm	Printing Temp.	For Printer Bed Temp.	Tensile Strength, psi	Surface Resistivity, ohm/sq.	Hardness	Max. Exposure Temp.	For Min. Nozzle Opening Dia., mm	Dia., mm	Dp., mm	Material	Wt., g		Each
Polycarbonate—Extra High Strength, High Strength, Highly Absorbent, Impact Resistant







				Opaque Black

				1.75	280° to 310° C 536° to 590° F	110° to 120° C 230° to 248° F	8,990	—	Durometer 84D (Hard)	135° C 275° F	0.4	195	40	Plastic	500	1317N322	000000


				Carbon Fiber-Filled Polycarbonate—Extra High Strength, High Strength, Highly Absorbent, Impact Resistant







								Opaque Black

								1.75	260° to 280° C 500° to 535° F	80° to 100° C 175° to 210° F	10,580	—	Not Rated	115° C 245° F	0.4	195	55	Plastic	750	1317N353	00000


								2.85	260° to 280° C 500° to 535° F	80° to 100° C 175° to 210° F	10,580	—	Not Rated	115° C 245° F	0.4	195	55	Plastic	750	1317N354	00000


								Polycarbonate—Extra High Strength, High Strength, Highly Absorbent, Impact Resistant, Moisture Resistant, Spark Resistant, Static Dissipative







												Opaque Black

												1.75	260° to 300° C 500° to 572° F	110° to 120° C 230° to 248° F	9,860	1× 10^7 to 1× 10^9	Rockwell R125 (Hard)	135° C 275° F	0.4	200	75	Plastic	750	3481N15	000000


												Fiberglass-Filled Polycarbonate—Extra High Strength, Flame Retardant, High Strength, Impact Resistant UL 94 V-0







																Opaque Black

																1.75	280° to 330° C 536° to 626° F	80° to 100° C 176° to 212° F	5,300	—	Not Rated	124° C 255° F	0.6	200	55	Plastic	700	4663N11	00000


																2.85	280° to 330° C 536° to 626° F	80° to 100° C 176° to 212° F	5,300	—	Not Rated	124° C 255° F	0.6	200	55	Plastic	700	4663N12	00000

Chemical-Resistant PPSU 3D Printer Filaments

Off-White

Fabricate custom bottles, packaging, and other parts for chemical processing. Made of PPSU, these filaments won’t break down even after prolonged exposure to virtually any acid, base, or solvent. They also stand up to oil and fuel, so they’re sometimes made into automotive parts. Because they have a low density and won’t transfer electricity, they make parts that are lightweight and protect components from electric currents. These filaments are easy to store too, since they resist absorbing water. Rated UL 94 V-0, they meet flammability standards.

Print these filaments on a fused filament fabrication (FFF) 3D printer. Due to its high melting point, PPSU is more difficult to print than most other materials. You need an all-metal extruder and a heated printer bed to reach its minimum printing temperature. After printing, anneal your part in an oven for 2 to 4 hours to reach its maximum strength, temperature, and ability to resist chemicals.

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.

									Spool
	Dia., mm	Printing Temp.	For Printer Bed Temp.	Tensile Strength, psi	Hardness	Max. Exposure Temp.	Annealing Temp.	For Min. Nozzle Opening Dia., mm	Dia., mm	Dp., mm	Material	Wt., g		Each
PPSU—Chemical Resistant, Extra High Strength, Flame Retardant, High Strength, Moisture Resistant, Ultra Absorbent UL 94 V-0







				Opaque Off-White

				1.75	390° to 410° C 734° to 770° F	140° to 160° C 284° to 320° F	7,970	Rockwell R110 (Hard)	180° C 200° C	80° to 130° C 176° to 266° F	0.4	200	40	Plastic	500	4271N7	0000000

Flexible TPU 3D Printer Filaments


Black	Blue	Green	Orange

Red	Silver	White	Yellow

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.

Durometer 85A—For the most flexible parts, use durometer 85A filaments. They're more flexible than other TPU filaments.

Durometer 95A—For a quick print without sacrificing flexibility, choose durometer 95A filaments. They print much faster than other TPU filaments.

								Spool, mm
	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	Choose a Color		Each
TPU Plastic—Durometer 85A (Medium Soft)



		1.75	225° to 235° C 437° to 455° F	21° to 40° C 70° to 104° F	580	—	44° C 111° F	0.25	200	70	1,000	Opaque Black, Opaque Blue, Opaque Green, Opaque Orange, Opaque Red, Opaque Silver, Opaque White, Semi-Clear White, Opaque Yellow	5020N805	000000


		2.85	225° to 235° C 437° to 455° F	21° to 40° C 70° to 104° F	580	—	44° C 111° F	0.25	200	70	1,000	Opaque Black, Opaque Blue, Opaque Green, Opaque Orange, Opaque White	5020N806	00000


		TPU Plastic—Durometer 95A (Medium Soft)



				1.75	230° to 240° C 446° to 464° F	21° to 40° C 70° to 104° F	1,250	—	49° C 120° F	0.25	200	70	1,000	Opaque Black, Opaque Blue, Opaque Green, Opaque Orange, Opaque Red, Opaque Silver, Opaque White, Semi-Clear White, Opaque Yellow	5020N807	00000


				2.85	230° to 240° C 446° to 464° F	21° to 40° C 70° to 104° F	1,250	—	49° C 120° F	0.25	200	70	1,000	Opaque Black, Opaque Blue, Opaque Green, Opaque Orange, Opaque Red, Opaque White, Opaque Yellow	5020N808	00000


				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	000000


						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

Wear-Resistant Nylon 3D Printer Filaments

Black

Print tough, long-lasting parts that won’t scratch or wear out from constant motion and friction, such as gears and washers. You can even tap or drill the parts without them cracking or shattering.

Use these filaments with fused filament fabrication (FFF) printers. Because of their relatively high melting point, a heated printer bed is recommended. These filaments also emit fumes when printing, so it’s best to use them in an enclosed printer or to remove the fumes with a fume exhauster. Store them in a sealed container with a desiccant so they don’t absorb moisture in the air, which can make them unusable.

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.

Carbon Fiber Filled—Carbon-fiber-filled nylon filaments make rigid parts that are difficult to bend and break. Their parts can also be threaded and machined more easily than the same filaments without any filler. However, they’re abrasive, so only use them with abrasion-resistant nozzles.

								Spool
	Dia., mm	Printing Temp.	For Printer Bed Temp.	Tensile Strength, psi	Hardness	Max. Exposure Temp.	For Min. Nozzle Opening Dia., mm	Dia., mm	Dp., mm	Material	Wt., g		Each
Carbon Fiber-Filled Nylon—Extreme Strength, High Strength, Impact Resistant, Wear Resistant







				Opaque Black

				1.75	280° to 300° C 535° to 570° F	50° C 122° F	15,225	Not Rated	215° C 419° F	0.4	200	65	Cardboard	500	3483N6	000000

Foam-Forming 3D Printer Filaments

Print these polypropylene filaments into filters, gaskets, and other lightweight, foam-like parts that let air and gas pass through but repel water. They contain a filler that dissolves in water, forming hollow spaces that make up 45% of the part. Polypropylene is known for being rigid yet flexible, so it absorbs impacts and bounces back to shape after bending, making these filaments good for compressible seals and living hinges. It also resists hydrocholoric and phosphoric acids, as well as other nonoxidizing acids and bases.

These filaments work with fused filament fabrication (FFF) 3D printers. If using a glass print surface, apply an adhesive to prevent the filament from detaching. The recommended print speed is 25 mm/s. While polypropylene is likely to shrink, the filler in these filaments supports your design, preventing it from losing shape as it prints. Submerge your part in hot water for about 24 hours after printing to dissolve the filler and expose the pores.

For extra support when printing complex designs, use structural support 3D printer filaments. They dissolve in water at the same time as this filament’s filler.

								Spool
	Dia., mm	Printing Temp.	For Printer Bed Temp.	Tensile Strength, psi	Hardness	Max. Exposure Temp.	For Min. Nozzle Opening Dia., mm	Dia., mm	Dp., mm	Material	Wt., g		Each
Polypropylene







				Opaque White

				1.75	190° to 240° C 374° to 464° F	95° to 125° C 203° to 257° F	1,000	Durometer 90A (Medium Soft)	140° C 284° F	0.4	200	55	Plastic	500	4275N11	0000000


				2.85	190° to 240° C 374° to 464° F	95° to 125° C 203° to 257° F	1,000	Durometer 90A (Medium Soft)	140° C 284° F	0.4	200	55	Plastic	500	4275N12	000000

Moisture-Resistant Polyester 3D Printer Filaments


	Clear

Parts printed with these polyester filaments absorb less moisture than other types of plastic, making them ideal for use in wet or humid environments. They are more durable and flexible than PLA, and easier to print than ABS. Use these filaments with fused filament fabrication (FFF) 3D printers, and print onto a heated print bed. Printing onto a cool surface causes the molten filament to change temperature rapidly, which can warp your designs. Although finished parts are moisture-resistant, these filaments are sensitive to humidity, and should be stored in a dehumidifying cabinet or a sealed container with desiccant for the best printing quality.

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.

PCTG—PCTG is more impact resistant than PETG and holds up to a wide range of acids and bases without breaking down. It is often used for printing parts that will be exposed to chemicals and oils.

								Spool
	Dia., mm	Printing Temp.	For Printer Bed Temp.	Tensile Strength, psi	Hardness	Max. Exposure Temp.	For Min. Nozzle Opening Dia., mm	Dia., mm	Dp., mm	Material	Wt., g		Each
PCTG—Chemical Resistant, Extra High Strength, High Strength, Highly Absorbent, Impact Resistant, Moisture Resistant







				Semi-Clear

				1.75	250° to 270° C 482° to 518° F	70° to 80° C 158° to 176° F	5,510	Not Rated	70° C 158° F	0.25	200	68	Plastic	1,000	3462N511	000000


				2.85	250° to 270° C 482° to 518° F	70° to 80° C 158° to 176° F	5,510	Not Rated	70° C 158° F	0.25	200	68	Plastic	1,000	3462N512	00000

Dremel 3D Printer Filaments

Build parts and prototypes from these filaments using Dremel fused filament fabrication (FFF) 3D printers. An RFID tag on the spool communicates with your printer, automatically adjusting it to the correct temperature and print speed for the filament material and notifying you when the filament is running out.

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.

Nylon

Black

Nylon resists scratches and wear, and is often used to create parts that encounter constant friction such as gears or bearings. Nylon parts also won’t crack or shatter when they’re drilled or tapped. Exposure to humidity makes these filaments brittle and unusable, so they need to be stored in a sealed container with a desiccant. Like ECO-ABS, parts can warp during cooling and need a heated printer bed. Make sure your printer is connected to a ventilation system, as nylon emits fumes during printing.

							Spool, mm
Mfr. Model No.	Dia., mm	Printing Temp.	For Printer Bed Temp.	Tensile Strength, psi	Max. Exposure Temp.	For Min. Nozzle Opening Dia., mm	Dia.	Dp.	Wt., g	Color		Each
DF45-NYP-B	1.75	230° to 250° C 446° to 482° F	80° C 176° F	7,540	155° C 311° F	0.4	180	55	500	Black	3653N12	000000