Off-White 3D Printer Filaments

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For Use With

PET

PETG

PLA

System of Measurement

Diameter

Color

Minimum Printing Temperature

Performance

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Weight

3D Printer Support Type

Water Soluble

For Minimum Nozzle Opening Diameter

0.4 mm

Material

Cardboard

Plastic

Maximum Printing Temperature

Maximum Exposure Temperature

Clarity

Spool Depth

Tensile Strength

4,000 psi to 9,999 psi

For Printer Bed Temperature

Spool Material

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RoHS

REACH

U.S.–Mexico–Canada Agreement (USMCA) Qualifying

Yes

DFARS Specialty Metals

Exempt

Export Control Classification Number (ECCN)

Spool Diameter

6 Products

Structural Support 3D Printer Filaments


Print structural support along with your part to prevent the part from losing its shape		Off-White

When 3D printing a model with overhangs or hollow spaces, use these filaments to prevent the model from losing its shape. They support the structure during the printing and cooling process, then dissolve or snap away once the part is hardened. Use them in dual-extrusion fused filament fabrication (FFF) printers alongside your primary filament. Unlike parts with supports printed from a single filament, there’s no cutting, sanding, or polishing required.

Choose a filament that has similar printing requirements as your primary filament. You will want to choose a support filament that prints at a similar temperature as your primary filament and has the same requirements for a heated build chamber, so they cool at the same rate and won’t warp.

You should also consider how you will remove the structural support filament from your finished part.

Aquasys GP—Aquasys GP filaments are good at supporting heat-sensitive materials, such as PLA and PET, because they print well at lower temperatures and don’t need a heated build chamber.

Water Soluble—Soluble filaments are well suited to print parts with complex or fragile designs as they gently dissolve off your primary part, leaving a smooth finish. Water-soluble filaments dissolve in a heated bath.

								Spool
	Dia., mm	Printing Temp.	For Printer Bed Temp.	Hardness	Max. Exposure Temp.	Water Temp. to Dissolve	For Min. Nozzle Opening Dia., mm	Dia., mm	Dp., mm	Material	Wt., g	For Use With		Each
Aquasys GP—Water Soluble







				Semi-Clear Off-White

				1.75	225° to 255° C 437° to 491° F	40° to 60° C 104° to 140° F	Not Rated	57° C 134° F	25° C 77° F	0.4	200	55	Plastic	500	PET PETG PLA	3664N21	000000


				2.85	225° to 255° C 437° to 491° F	40° to 60° C 104° to 140° F	Not Rated	57° C 134° F	25° C 77° F	0.4	200	55	Plastic	500	PET PETG PLA	3664N22	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.

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
	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

3D Printer Filaments for Casting


Mold Shown with 3D-Printed Part

Create molds around parts printed with these filaments. They’re PVB, so they vaporize cleanly from your mold, similar to wax in traditional investment casting and lost wax casting. For a smoother surface on your mold, before casting you can apply isopropyl alcohol to remove the layer lines from your printed parts. Apply using a brush, sprayer, or vapor bath.

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.	For Min. Nozzle Opening Dia., mm	Dia., mm	Dp., mm	Material	Wt., g		Each
PVB







				Opaque Off-White

				1.75	190° to 220° C 374° to 428° F	25° to 70° C 77° to 158° F	4,930	Not Rated	52° C 125° F	0.4	200	50	Plastic	750	7374N11	000000


				2.85	190° to 220° C 374° to 428° F	25° to 70° C 77° to 158° F	4,930	Not Rated	52° C 125° F	0.4	200	50	Cardboard	750	7374N12	00000

Impact-Resistant ABS 3D Printer Filaments

Off-White

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.

ABS/SMA—ABS/SMA filaments have a styrene additive that makes them easier to print and reduces warping during cooling. These filaments also form strong bonds between layers, so prints will not split apart.

							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	Color		Each
ABS/SMA



		1.75	240° to 260° C 464° to 500° F	100° to 120° C 212° to 248° F	4,300	71° C 160° F	0.4	200	55	750	Off-White	1317N157	000000