This amazing filament is made from a mix of wood particles and bio-polymers, which can be used in your 3D printer to produce items that look like wood...best of all we have made it flexible enough to come on a spool, yet stronger so it does not snap like other brands More
PolyMide™ PA6-CF is a carbon fiber reinforced nylon (PA6) 3D printing material offering the highest strength, impact resistance and heat deflection of all Polymaker 3D printing materials. More
CarbonX™ PP+CF is made using a specialty formulated PP copolymer and reinforced with premium high-modulus carbon fiber. This material offers ease of printing, strength & stiffness, excellent dimensional stability, and an amazing surface finish. More
High Temp Resistant PLA + Black Carbon Fibre - 1.75mm - 500g Spool
Protopasta Carbon Fiber Composite HTPLA is a combination of milled carbon fibers and high-performance PLA. Resulting 3D prints made with our Carbon Fiber HTPLA are demonstrably more rigid, providing excellent structural strength and layer adhesion with very low warpage. The embedded carbon provides a beautiful matte black finish with a slight sheen, resulting in 3D prints with exceptional accuracy, finish, and performance! More
PolyMide™ PA6-GF is a glass fiber reinforced Nylon (PA6) that offers outstanding mechanical properties, namely, impact strength and stiffness. The material exhibits excellent thermal and mechanical properties without sacrificing the layer adhesion. PolyMide™ PA6-GF can be used to print parts working in a wide temperature range and has been utilized to create custom lab equipment working at temperatures as low as -190°C. More
Based on Proto-pasta HTPLA, this Matte Fiber version can be heat treated to retain more stiffness to higher temperatures. The plant-based fibers improve adhesion of glues and coatings. Similar to Carbon Fiber HTPLA, Matte Fiber does NOT require a wear resistant nozzle. More
Based on Proto-pasta HTPLA, this Matte Fiber version can be heat treated to retain more stiffness to higher temperatures. The plant-based fibers improve adhesion of glues and coatings. Similar to Carbon Fiber HTPLA, Matte Fiber does NOT require a wear resistant nozzle. More
PolyMide™ PA6-CF is a carbon fiber reinforced nylon (PA6) 3D printing material offering the highest strength, impact resistance and heat deflection of all Polymaker 3D printing materials. More
PolyMaker Glass Fibre PA6 Nylon, Grey, 1.75mm, 150g Sample - UNTIL SOLD OUT
this is a sample coil of 150g only, so you can try a few prints before investing in a 2kg spool.
PolyMide™ PA6-GF is a glass fiber reinforced Nylon (PA6) that offers outstanding mechanical properties, namely, impact strength and stiffness. The material exhibits excellent thermal and mechanical properties without sacrificing the layer adhesion. PolyMide™ PA6-GF can be used to print parts working in a wide temperature range and has been utilized to create custom lab equipment working at temperatures as low as -190°C. More
Nylon PA6 CF15 is a high-temperature, black, PA6-based construction material. Filling with 15% carbon fibres increases significantly the mechanical strength of the polyamide the material is based on. The filaments specific quality is the moisture absorption reduced by half and the water absorption time is four times lower than that of the pure PA6. Printing does not require a heated chamber and no deformation occurs. The material is compatible with the HIPS and PVOH support materials. In addition, Nylon PA6 CF15 features a very low linear shrinkage (up to 0.1%), a high deformation temperature (240°C), working temperature (180°C) and low thermal expansion coefficient (0.4 10-5/K). More
PolyMide™ PA6-CF is a carbon fiber reinforced nylon (PA6) 3D printing material offering the highest strength, impact resistance and heat deflection of all Polymaker 3D printing materials. More
High Temp Resistant Carbon Fiber PLA - 1.75mm, 3kg Spool
Protopasta Carbon Fiber Composite HTPLA is a combination of milled carbon fibers and high-performance PLA. Resulting 3D prints made with our Carbon Fiber HTPLA are demonstrably more rigid, providing excellent structural strength and layer adhesion with very low warpage. The embedded carbon provides a beautiful matte black finish with a slight sheen, resulting in 3D prints with exceptional accuracy, finish, and performance! More
Based on Proto-pasta HTPLA, this Matte Fiber version can be heat treated to retain more stiffness to higher temperatures. The plant-based fibers improve adhesion of glues and coatings. Similar to Carbon Fiber HTPLA, Matte Fiber does NOT require a wear resistant nozzle. More
Based on Proto-pasta HTPLA, this Matte Fiber version can be heat treated to retain more stiffness to higher temperatures. The plant-based fibers improve adhesion of glues and coatings. Similar to Carbon Fiber HTPLA, Matte Fiber does NOT require a wear resistant nozzle. More
Based on Proto-pasta HTPLA, this Matte Fiber version can be heat treated to retain more stiffness to higher temperatures. The plant-based fibers improve adhesion of glues and coatings. Similar to Carbon Fiber HTPLA, Matte Fiber does NOT require a wear resistant nozzle. More
Based on Proto-pasta HTPLA, this Matte Fiber version can be heat treated to retain more stiffness to higher temperatures. The plant-based fibers improve adhesion of glues and coatings. Similar to Carbon Fiber HTPLA, Matte Fiber does NOT require a wear resistant nozzle. More
Based on Proto-pasta HTPLA, this Matte Fiber version can be heat treated to retain more stiffness to higher temperatures. The plant-based fibers improve adhesion of glues and coatings. Similar to Carbon Fiber HTPLA, Matte Fiber does NOT require a wear resistant nozzle. More
Based on Proto-pasta HTPLA, this Matte Fiber version can be heat treated to retain more stiffness to higher temperatures. The plant-based fibers improve adhesion of glues and coatings. Similar to Carbon Fiber HTPLA, Matte Fiber does NOT require a wear resistant nozzle. More
Based on Proto-pasta HTPLA, this Matte Fiber version can be heat treated to retain more stiffness to higher temperatures. The plant-based fibers improve adhesion of glues and coatings. Similar to Carbon Fiber HTPLA, Matte Fiber does NOT require a wear resistant nozzle. More
This amazing filament is a blend of PLA and carbon Fiber by ProtoPasta in the USA. It prints easily at 230-245 degrees on a cold bed. We used glue on a glass bed for our test. More
This amazing filament is a blend of PLA and Carbon Fiber by ProtoPasta in the USA.
It prints easily at 230-245 degrees on a cold bed. We used glue stick on a glass bed for our test. More
Based on Proto-pasta HTPLA, this Matte Fiber version can be heat treated to retain more stiffness to higher temperatures. The plant-based fibers improve adhesion of glues and coatings. Similar to Carbon Fiber HTPLA, Matte Fiber does NOT require a wear resistant nozzle. More
Based on Proto-pasta HTPLA, this Matte Fiber version can be heat treated to retain more stiffness to higher temperatures. The plant-based fibers improve adhesion of glues and coatings. Similar to Carbon Fiber HTPLA, Matte Fiber does NOT require a wear resistant nozzle. More
Based on Proto-pasta HTPLA, this Matte Fiber version can be heat treated to retain more stiffness to higher temperatures. The plant-based fibers improve adhesion of glues and coatings. Similar to Carbon Fiber HTPLA, Matte Fiber does NOT require a wear resistant nozzle. More
Based on Proto-pasta HTPLA, this Matte Fiber version can be heat treated to retain more stiffness to higher temperatures. The plant-based fibers improve adhesion of glues and coatings. Similar to Carbon Fiber HTPLA, Matte Fiber does NOT require a wear resistant nozzle. More
Based on Proto-pasta HTPLA, this Matte Fiber version can be heat treated to retain more stiffness to higher temperatures. The plant-based fibers improve adhesion of glues and coatings. Similar to Carbon Fiber HTPLA, Matte Fiber does NOT require a wear resistant nozzle. More
Based on Proto-pasta HTPLA, this Matte Fiber version can be heat treated to retain more stiffness to higher temperatures. The plant-based fibers improve adhesion of glues and coatings. Similar to Carbon Fiber HTPLA, Matte Fiber does NOT require a wear resistant nozzle. More
Based on Proto-pasta HTPLA, this Matte Fiber version can be heat treated to retain more stiffness to higher temperatures. The plant-based fibers improve adhesion of glues and coatings. Similar to Carbon Fiber HTPLA, Matte Fiber does NOT require a wear resistant nozzle. More
PolyMide™ PA6-GF is a glass fiber reinforced Nylon (PA6) that offers outstanding mechanical properties, namely, impact strength and stiffness. The material exhibits excellent thermal and mechanical properties without sacrificing the layer adhesion. PolyMide™ PA6-GF can be used to print parts working in a wide temperature range and has been utilized to create custom lab equipment working at temperatures as low as -190°C. More
PolyMide™ PA6-GF is a glass fiber reinforced Nylon (PA6) that offers outstanding mechanical properties, namely, impact strength and stiffness. The material exhibits excellent thermal and mechanical properties without sacrificing the layer adhesion. PolyMide™ PA6-GF can be used to print parts working in a wide temperature range and has been utilized to create custom lab equipment working at temperatures as low as -190°C. More
Nylon PA6 CF15 is a high-temperature, black, PA6-based construction material. Filling with 15% carbon fibres increases significantly the mechanical strength of the polyamide the material is based on. The filaments specific quality is the moisture absorption reduced by half and the water absorption time is four times lower than that of the pure PA6. Printing does not require a heated chamber and no deformation occurs. The material is compatible with the HIPS and BVOH support materials. In addition, Nylon PA6 CF15 features a very low linear shrinkage (up to 0.1%), a high deformation temperature (240°C), working temperature (180°C) and low thermal expansion coefficient (0.4 10-5/K). More
Nylon PA6 GK10 is a new, high-temperature PA6-based construction material in the natural colour. Perfect for 3D printing. Filled with glass beads, it is more flexible than the polyamide the material is based on. Its specific quality is a low impact of moisture and temperature on the measurements or electrical properties as compared to PA66. In addition, Nylon PA6 GK10 features a low linear shrinkage (up to 0.3-0.5%) and a relatively high working temperature (160oC). More
Nylon PA6 GK10 is a new, high-temperature PA6-based construction material in the natural colour. Perfect for 3D printing. Filled with glass beads, it is more flexible than the polyamide the material is based on. Its specific quality is a low impact of moisture and temperature on the measurements or electrical properties as compared to PA66. In addition, Nylon PA6 GK10 features a low linear shrinkage (up to 0.3-0.5%) and a relatively high working temperature (160oC). More
Ultrafuse PP GF30 is polypropylene reinforced with 30% glass fiber content. The fibers in this compound are specially designed for 3D-printing filaments and are compatible with a wide range of FFF 3D-printers with tough nozzles. More
Ultrafuse PP GF30 is polypropylene reinforced with 30% glass fiber content. The fibers in this compound are specially designed for 3D-printing filaments and are compatible with a wide range of FFF 3D-printers with tough nozzles. More
ThermaX™ PEEK (PolyEtherEtherKetone) is one of the highest-performance polymers in world. PEEK has exceptional mechanical, thermal, and chemical resistance properties making it a go-to material in some of the most demanding applications. More
ThermaX™ PEKK-C (PolyEtherKetoneKetone) is made using Arkema Kepstan® PEKK [ 70/30 copolymer] and is one of the highest performance materials in the world while also being one of the easiest to print ultra-polymers. More
This amazing filament is a blend of PLA and carbon Fiber by ProtoPasta in the USA. Will wear nozzle so we advise using a wear resistant nozzle (sold seperately). Produces impressively strong models with minimum fuss and difficulty. More
This amazing filament is a blend of PLA and carbon Fiber by ProtoPasta in the USA. It prints easily at 230-245 degrees on a cold bed. We used glue on a glass bed for our test. Tendancy to leave small balls/pimples on surface which easily clean up. Will wear nozzle so we advise using a wear resistant nozzle (sold seperately). Produces impressively strong models with minimum fuss and difficulty. More
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