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3D Printing Polymers
Products in 3D Printing Polymers
448 Products found in 3D Printing Polymers
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3D Systems
Accura® Amethyst
Polymer Name:
Epoxy Resins & Compounds
Processing Methods:
Stereolithography, 3D Printing
Features Accurate, high-resolution master patterns High resolution in X, Y, and Z dimensions Manufacture master patterns for jewelry and other microcasting applications
FKuR
Bio-Flex® F 7510
Density:
1250.0 - 1250.0 kg/m³
Bio-Flex® F 7510 by FKuR is comprised of Polylactic Acid. It is commonly used
Push Plastic
Push Plastic PETG - 10 kg
Polymer Name:
Polyethylene Terephthalate Glycol (PETG)
Processing Methods:
3D Printing, Fused Filament Fabrication
End Uses:
Modeling Material, Prototyping, Bottles
PETG (Polyethylene Terephthalate Glycol Comonomer) 3D Printing Filament. PETG - 1 kg benefits include Great impact resistance, Natural color is very clear, Excellent chemical resistance for a clear plastic, Perfect for applications that require high durability and clarity.
Asiga
Asiga FusionGRAY
Processing Methods:
Injection Molding
End Uses:
Tooling
Asiga FusionGRAY is a high temperature material for injection mold tooling inserts. It reduce time to market with FusionGRAY for rapid tooling and digital manufacturing. It is resistant to temperatures to to 160°C / 320°F with excellent compressive strength. The Layer thickness range from 10 microns.
Essentium
ESSENTIUM HTN
Polymer Name:
Polyamide (unspecified)
End Uses:
Molds/Dies/Tools, Gears, Electrical Housing
Density:
1200.0 - 1200.0 kg/m³
Essentium HTN (high-temperature nylon) is a polyamide based chemistry that has improved mechanical and thermal properties compared to standard nylons. Additionally, it is an easy-to-print, low-warp material that boasts high toughness and wear resistantance. This material is a drop-in replacement for Acetal (Delrin®) and has best-in-class slow moisture absorption.
Formlabs
Formlabs Tough 1500
Processing Methods:
Thermoforming, 3D Printing
End Uses:
Electronic Accessory Cases, Prototyping, 3D Printing Resins, Consumer Applications, Thermoforming Applications, 3D Printing Applications
Formlabs Tough 1500 is the strongest and stiffest material in our functional family of Tough and Durable Resins.
Extrudr
XPETG MATT Black
Polymer Name:
Polyethylene Terephthalate Glycol (PETG)
Processing Methods:
3D Printing
End Uses:
Consumer Applications, Toys, Industrial Parts, 3D Printing Applications, Prototyping
XPETG MATT Black is one of the world‘s most common thermoplastic polymers. Extrudr XPETG Matt was developed for a wide range of applications where the main requirement is a good balance between mechanical and optical material properties. The raw material is approved according to the REACH- and RoHS-Standards.
Push Plastic
Push Plastic High Heat + Tough PLA - 1 kg
Polymer Name:
Polylactic Acid (PLA)
Labeling Claims:
Biodegradable
Processing Methods:
3D Printing, Fused Filament Fabrication
High Heat PLA (Polylactic Acid) 3D Printing Filament engineered to deliver improved heat-resistance and high impact strength to 3D printed parts, this formulated grade achieves thermal and mechanical properties similar to ABS while offering an alternative to styrenic-based materials. Printed parts made from this PLA can be heat treated, which can obtain properties that exceed ABS. To achieve a heat treat on a printed part, submerge in water (or bake in oven) at 100-120C for up to 30 minutes. Manufactured in the USA using High Heat PLA 3D870 resin. This material is a great substitute for normal PLA when greater heat resistance and impact strength is desired.
NANOVIA
NANOVIA PETG CF Carbon fibre reinforced
Polymer Name:
Polyethylene Terephthalate Glycol (PETG)
Processing Methods:
Fused Filament Fabrication, 3D Printing
Nanovia PETG CF allows for the creation of functional projects with ease thanks to its carbon fiber reinforced structure. Nanovia PETg CF allows for the creation of structural 3D prints with low warping thanks to its compound carbon fibers structure. This composite 3D filament has been specially designed to be compatible with standard 3D printers equipped with a heated bed.
3D Systems
VisiJet® FTX Gold
Polymer Name:
Epoxy Resins & Compounds
Processing Methods:
Stereolithography, 3D Printing
End Uses:
Modeling Material, Prototyping, Mold Making
VisiJet FTX Gold and FTX Silver provide metallic appearanceUV Curable PlasticMetallic gold appearance
Solaxis
Solaxis Nylon 12
Applications:
Interior, Interior Fixtures, Tooling & Moldmaking
Product Families:
Other 3D Printing Polymers, 3D Printing Polymers
Chemical Family:
Polyamides
Polymer Name:
Polyamide 12 (PA 12)
End Uses:
Prototyping, 3D Printing Applications
Solaxis Nylon 12 is the first material in Stratasys’ family of nylon offerings, complementing the current portfolio of FDM® materials and enabling new applications requiring: repetitive snap fits, high fatigue resistance, strong chemical resistance and press (friction) fit inserts. FDM Nylon 12 is primarily used in aerospace, automotive and consumer goods industries to take on everything from tooling, jigs and fixtures to covers, panels and vibration resistant components. For use with Fortus 380mc™, 450mc™ and 900mc™ 3D Printers, FDM Nylon 12 offers unparalleled toughness and a simple, clean process – free of powders.
Push Plastic
Push Plastic PLA - 1 kg
Polymer Name:
Polylactic Acid (PLA)
Labeling Claims:
Biodegradable
Processing Methods:
3D Printing, Fused Filament Fabrication
PLA (Polylactic Acid) 3D printer filament. The most commonly used 3D printing media, the benefits of PLA include affordability, easy to use, large color selection, and low print temperature.
3D Systems
Accura® Xtreme
Polymer Name:
Epoxy Resins & Compounds
Processing Methods:
3D Printing, Stereolithography
End Uses:
Handles, Electrical Components
Tensile Strength:
38.0 - 44.0 MPa
Features Tough and durable Resists breakage and handles challenging functional assemblies Great for snap fits, assemblies and demanding applications Ideal for master patterns for vacuum casting
Fabru
Fabru ABS
Polymer Name:
Acrylonitrile Butadiene Styrene (ABS)
Processing Methods:
3D Printing
End Uses:
Prototyping
Fabru ABS has general chemical resistance.
Volaprint
Volaprint PETG
Polymer Name:
Polyethylene Terephthalate Glycol (PETG)
Processing Methods:
3D Printing
End Uses:
Mold Making
Volaprint PETG Filament specially developed for applications in 3D printing,.
Essentium
ESSENTIUM HTN-CF25
Polymer Name:
Polyamide (unspecified)
Processing Methods:
Thermoforming, Blow Molding, Injection Molding
End Uses:
Front Spoiler, Blown Containers, Side Spoiler, Thermoformed Cups, Thermoforming Applications, Thermoformed Trays, Containers, Molds/Dies/Tools, Thermoformed Containers
Density:
1320.0 - 1320.0 kg/m³
Essentium HTN-CF25 (high-temperature nylon) is a polyamide based chemistry with a 25% carbon fiber reinforced core. HTN-CF25 is the highest strength and stiffness material in the Essentium portfolio. This material also boasts easy processing and excellent thermal resistance. This material is designed for tooling applications, high strength/stiffness jigs and fixtures, and as a replacement for light-duty aluminum parts.
Elogio AM
Facilan™ PCL 100 Filament
Polymer Name:
Polycaprolactone (PCL)
Processing Methods:
Fused Filament Fabrication
End Uses:
Body Implants, Dental Applications
Density:
1100.0 - 1100.0 kg/m³
Flexural Modulus:
380.0 - 380.0 MPa
Facilan™ PCL100 (polycaprolactone 100) is a polycaprolactone material used widely for research applications in biofabrication such as scaffolds, braces, implants, smart materials, hydrogels, tissue engineering and drug delivery. Polycaprolactone in is reported in research tough, strong, flexible, bioabsornanle, biocompatible and compostable. It is based on raw material complaint with European regulation EC No. 10/2011 concerning plastic materials and articles coming into contact with food. Recommended restrictions. Do not use in medical applications involving permanent implantation in the human body.
FKuR
Fibrolon® 3D Wood
Flexural Modulus:
2950.0 - 2950.0 MPa
Fibrolon® 3D Wood by FKuR is comprised of Copolyester Resin and Polylactic Acid. It is commonly used
3D Systems
VisiJet® FTX Green
Polymer Name:
Epoxy Resins & Compounds
Processing Methods:
Stereolithography, 3D Printing
End Uses:
Modeling Material, Prototyping, Mold Making
UV Curable PlasticTough castable plastic
Push Plastic
Push Plastic PETG - 1 kg
Polymer Name:
Polyethylene Terephthalate Glycol (PETG)
Processing Methods:
3D Printing, Fused Filament Fabrication
End Uses:
Modeling Material, Prototyping, Bottles
PETG (Polyethylene Terephthalate Glycol Comonomer) 3D Printing Filament. PETG - 1 kg benefits include Great impact resistance, Natural color is very clear, Excellent chemical resistance for a clear plastic, Perfect for applications that require high durability and clarity.
3D Systems
VisiJet® M3 Crystal
Polymer Name:
Epoxy Resins & Compounds
Processing Methods:
3D Printing, Photopolymer Jetting
End Uses:
Prototyping, Medical/Healthcare Applications, Tooling
Tensile Strength:
42.4 - 42.4 MPa
An engineered plastic performance for durability and stability ideal for functional testing and rapid tooling applications. This material also provides true plastic look and feel for a vast array of prototyping and end use applications. VisiJet Crystal is USP Class VI certified for approved medical applications.
Push Plastic
Push Plastic PLA - 3 kg
Polymer Name:
Polylactic Acid (PLA)
Labeling Claims:
Biodegradable
Processing Methods:
3D Printing, Fused Filament Fabrication
PLA (Polylactic Acid) 3D printer filament. The most commonly used 3D printing media, the benefits of PLA include affordability, easy to use, large color selection, and low print temperature.
3D Systems
VisiJet® M2 ENT
Tensile Strength:
0.2 - 0.4 MPa
BigRep
BigRep PRO HT
Labeling Claims:
Environmentally Friendly, Biodegradable
Density:
1300.0 - 1300.0 kg/m³
Tensile Strength:
44.0 - 44.0 MPa
Flexural Modulus:
2600.0 - 2600.0 MPa
BigRep PRO HT complies with the compositional requirements of the European Regulation on Plastic Food Contact Materials and with the requirements of LFGB.
Farsoon Technologies
Farsoon Technologies FS 1088A - TPU
Tensile Strength:
20.0 - 20.0 MPa
Farsoon Technologies FS 1088A - TPU provides superb elongation and low processing temperature.Ideal for applications requiring a soft or flexible material applications. Farsoon considers material to part of its core competency. Farsoon’s experienced material department has independently developed a portfolio of polymer materials for additive manufacturing. In addition Farsoon’s fully capable material manufacturing is able to vertically control the production of the material from raw material to finished product, ensuring quality and stability. With excellent color stability, oxidation resistance, Farsoon polymer materials produce high quality parts which provide both detailed surface precision and high mechanical properties. In addition Farsoon partners with many material suppliers to bring new and advanced materials to the users through Farsoon’s open material policy.
Volaprint
Volaprint PP Transparent
Polymer Name:
Polypropylene (unspecified)
Processing Methods:
3D Printing
End Uses:
Mold Making
Volaprint PP Transparent Thermoplastic material based on propylene.
3D Systems
DuraForm® ProX GF
Flexural Modulus:
3120.0 - 3120.0 MPa
EnvisionTEC
EnvisionTEC RC31
Polymer Name:
Thermoset (unspecified)
Processing Methods:
3D Printing
Tensile Strength:
35.4 - 35.4 MPa
EnvisionTEC RC31 is a popular line of photosensitive resins that contain ceramic particles, EnvisionTEC’s RC materials build tough and stiff parts at very high resolutions.
Carbon Inc.
CarbonResin™ RPU 60
Polymer Name:
Polyurethane (unspecified)
Processing Methods:
Digital Light Synthesis, 3D Printing
End Uses:
Footwear, Automotive Interior Parts, Safety Helmets, Automotive Applications
Density:
1076.0 - 1076.0 kg/m³
CarbonResin™ RPU 60 is a tough, abrasion-resistant material that is a good choice for parts that require rigidity, strength, and durability. Rigid Polyurethane is our most versatile rigid material family. It is used across a wide range of industries, including consumer products, automotive, and industrial. RPU is comparable to ABS.
3D Systems
VisiJet® ProFlex (M2G-DUR)
Tensile Strength:
15.0 - 20.0 MPa
NANOVIA
NANOVIA PSU High temperature resistance
Polymer Name:
Polysulfone (PSU)
Processing Methods:
Fused Filament Fabrication, 3D Printing
End Uses:
Batteries
PSU High temperature resistance allows the creation of networks capable of transporting solvents, hydrocarbons, acids, and bases.
Elogio AM
Luvocom® 3F PAHT 9825 NT Filament
Density:
1200.0 - 1200.0 kg/m³
Luvocom® 3F PAHT 9825 NT Filament is a unreinforced High-temperature polyamide. Its water uptake takes about 4 times longer to reach the saturation point compared to unmodified PA6, also its saturation point is 5 times lower than conventional PA6 materials. This particular engineering polymer grade is tailored made for the 3D printing industry to match the injection molding strength requirements and focusing on the serial production of end-parts. The filament can be used on conventional FFF / FDM 3D printing systems due to the enhanced printability, improved layer bonding and the unrequired use of a heated chamber.
Elogio AM
Luvocom® 3F PEEK CF 9676 BK Filament
Polymer Name:
Polyetheretherketone (PEEK)
Processing Methods:
Fused Filament Fabrication
End Uses:
Aerospace Applications, Machine/Mechanical Parts, Automotive Exterior Parts, Automotive Applications, Automotive Interior Parts, Oil/Gas Applications
Density:
1360.0 - 1360.0 kg/m³
Luvocom® 3F PEEK CF 9676 BK Filament is a 15% carbon reinforced PEEK (Polyether Ether Ketone) with extraordinary characteristics in terms of mechanical, thermal and chemical resistance. PEEK with carbon is used in demanding industries like oil and gas, automotive, mechanical engineering, aircraft and aerospace technologies. This particular high performance polymer grade is tailored made for the 3D printing industry to match the injection molding strength requirements and focusing on the serial production of end-parts.
3D Systems
VisiJet® M3 Proplast
Polymer Name:
Epoxy Resins & Compounds
Processing Methods:
3D Printing, Photopolymer Jetting
End Uses:
Modeling Material, Mold Making
Tensile Strength:
26.2 - 26.2 MPa
VisiJet Proplast Plastic Material (white/natural color) provides an economical solution for general models. In addition, this material is commonly used for sacrificial patterns for numerous direct casting applications.
Zortrax
Zortrax Z-ABS 2
Density:
1000.0 - 1000.0 kg/m³
Z-ABS is a versatile and economic material which perfectly matches the needs of users who begin their work with 3D printing as well as professionals who want to make savings on in-house prototyping. With a wide selection of post-processing methods, either mechanical or chemical, Z-ABS becomes well-suited not only for producing affordable prototypes, but also for creative applications, such as conceptual models, gadgets or figurines. Z-ABS is something you seek for if you need to 3D print low-cost, attractive-looking objects or prototypes with functional requirements.
BigRep
BigRep PLX
Polymer Name:
Polylactic Acid (PLA)
Labeling Claims:
Environmentally Friendly, Biodegradable
Density:
1250.0 - 1250.0 kg/m³
Tensile Strength:
48.0 - 48.0 MPa
Flexural Modulus:
2800.0 - 2800.0 MPa
BigRep PLX is a PLA-derived, general-use bio performance material for open-environment 3D printing. An innovative and robust thermoplastic filament, PLX can print up to 80% faster than a standard PLA material with no modification to the 3D printer at a strength that exceeds the typical mechanical properties of even ABS-printed parts - enabling industrial additive manufacturing in large-format at unprecedented speeds. PLX is incredibly versatile, allowing printer settings to be tuned for either incredible speeds or beautifully smooth surface finishes. PLX delivers consistent, quality results that make it a reliable material for large-format printing in any industry. As a material derived from organic compounds, PLX is biodegradable under the correct conditions. CO2 neutral and environmentally friendly, it has a much lower ecological impact than other plastics derived from fossil fuels.
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