Search
the marketplace
through 230,000 Chemicals and Raw Ingredients
through 8,000+ Supplier owned storefronts
Knowde for Suppliers
Segments
Nutraceuticals & Supplements
undefined
View All
HI&I Cleaning & Formulating
Chemical Manufacturing
Pharmaceuticals
Pulp & Paper
Oil & Gas
Agriculture & Feed
Case & Construction
Formulated Adhesives & Coatings
Food & Nutrition
Personal Care
Mining
Cosmetic Ingredients
Food Ingredients
Most popular categories
CASE Ingredients
Plastics
Pharmaceuticals & Nutraceuticals
Knowde for Suppliers
Knowde
Plastics
3D Printing Polymers
Products in 3D Printing Polymers
448 Products found in 3D Printing Polymers
Browse
Applications
Show All 4 Categories
Filters
Suppliers
Applications
Polymer Name
End Uses
Processing Methods
Mechanical Properties
Products
Brands
Suppliers
Formulations
Documents
Relevance
FKuR
Fibrolon® 3D Bamboo
Density:
1190.0 - 1190.0 kg/m³
Fibrolon® 3D Bamboo by FKuR is comprised of Copolyester Resin and Polylactic Acid. It is commonly used
Massivit 3D
Dimengel 100
Polymer Name:
Acrylic Resin
Processing Methods:
3D Printing
End Uses:
Prototyping
Tensile Strength:
47.0 - 47.0 MPa
Dimengel 100 (DIM 100) is a proprietary photo polymeric acrylic gel that enables models to cure while printing, delivering solid objects straight off the printer. This unique material facilitates support-less, non-vertical parts, tops, and ceilings. The objects are hollow, translucent and can be illuminated.
Zortrax
Zortrax Z-PEI 9085
Polymer Name:
Polyether Imide (PEI), Polycarbonate (PC)
Processing Methods:
3D Printing
End Uses:
Automotive Components, Marine Applications, Aircraft Interiors, Automotive Interior Parts, Aerospace Applications
Density:
1340.0 - 1340.0 kg/m³
Flexural Modulus:
2170.0 - 2170.0 MPa
Z-PEI 9085 is a durable, aerospace-grade polymer with strength-to-weight ratio comparable to aluminum 6061. This filament consists of polyetherimide with a polycarbonate copolymer blend. Z-PEI 9085 exhibits excellent thermal properties and retains its properties in temperatures reaching 170° C . The most notable property of Z-PEI 9085 is very low FST (Flame, Smoke, Toxicity). The material has a UL 94 V-0 flammability rating which makes it perfect for printing flame-retardant components.
3D Systems
VisiJet® M5-Black
Polymer Name:
Epoxy Resins & Compounds
Processing Methods:
Photopolymer Jetting, 3D Printing
End Uses:
Appliance Components, Engineering Parts, Prototyping, Housings, Electrical/Electronic Applications, Appliances, Industrial Parts, Automotive Applications
VisiJet M5 Black is a strong, flexible material that makes sleek black parts. VisiJet M5 Black can be used to make functional parts for extended use and testing. With the ProJet 5000's large build volume, large panels and housings can be printed with ease. The material's flexibility allows for easy assembly and snap-fit applications. Its black color makes it ideal for electronics, plastic automotive components, and chic black appliances.
Volaprint
Volaprint PC / ABS
Polymer Name:
PC/ABS Alloy
Processing Methods:
3D Printing
End Uses:
Industrial Applications, Mold Making, Automotive Interior Parts
Volaprint PC / ABS Black colored molding compound.
3D Systems
VisiJet® FTI Red
Polymer Name:
Epoxy Resins & Compounds
Processing Methods:
Stereolithography, 3D Printing
End Uses:
Prototyping
VisiJet FTI materials create durable plastic parts with excellent, high resolution detail that are tough enough for functional testing and snap-fit applications.
3D Systems
Accura® 48HTR
Polymer Name:
Epoxy Resins & Compounds
Processing Methods:
Stereolithography, 3D Printing
End Uses:
Automotive Under The Hood, Modeling Material, Prototyping, Electrical/Electronic Applications, Automotive Applications, Aerospace Applications
Tensile Strength:
64.0 - 67.0 MPa
Applications Automotive Testing Under the hood Fluid flow and visualization Intake manifold design analysis and verification Coolant flow analysis Heating Air duct models Transmission fluid flow analysis Electronic controls prototypes Aerospace wind tunnel models High rigidity models Long lived prototypes Features Temperature reistant to 130°C (266°F) High humidity and moisture resistance High rigidity Low viscosity formulation Benefits Suitable for high temperature testing Stable mechanical properties over time Parts maintain modulus in humid environments Extended part life Parts are strong and maintain shape Fast recoating and cleaning
Formlabs
Formlabs Flexible
Processing Methods:
3D Printing
End Uses:
Flexible Grips, Gaskets, Prototyping, 3D Printing Resins, Consumer Applications, 3D Printing Applications, Household Goods, Cookware Handles, Handles
Formlabs Flexible Resin is excellent for simulating soft-touch materials and adding ergonomic features to multi-material assemblies.
Fabru
Fabru PC-ABS
Polymer Name:
PC/ABS Alloy
Processing Methods:
3D Printing
End Uses:
Prototyping
Fabru PC-ABS is a Polycarbonate.
Elogio AM
Elogio AM ASA Filament
Density:
1050.0 - 1050.0 kg/m³
Acrylonitrile-Styrene-Acrylate (ASA) polymers are amorphous and have mechanical properties similar to those of ABS plastics. However, the ASA properties are far less affected by outdoor weathering. The outstanding weather resistance abilities of ASA is due to the acrylic ester elastomer. ASA parts have good chemical and heat resistance, and high impact strength, even at low temperatures. Typical ASA applications are buiding/construction, automotive and recreation parts.
EnvisionTEC
EnvisionTEC E-Shell 200 Series
Polymer Name:
Thermoset (unspecified), Polyurethane (unspecified)
Processing Methods:
3D Printing
Tensile Strength:
57.8 - 57.8 MPa
EnvisionTEC E-Shell 200 Series is a low viscosity liquid photopolymer that produces strong, tough, water-resistant ABS-like parts with high detail that are Class IIa biocompatible according to ISO 10993/Medical Product Law and are CE-certified for use as hearing aid products, otoplastics, and medical devices.
NANOVIA
NANOVIA PA-6 High resistance
Polymer Name:
Polyamide 6 (PA 6)
Processing Methods:
Fused Filament Fabrication, 3D Printing
End Uses:
Automotive Components, Automotive Interior Parts, Living Hinges
Nanovia PA-6 blends mechanical, heat, and chemical resistance. It is widely used for industrial application, this filament with not snap and tear apart progressively.
3D Systems
DuraForm® GF
Polymer Name:
Polyamide (unspecified)
Processing Methods:
Selective Laser Sintering, 3D Printing
End Uses:
Sporting Goods, Prototyping, Housings, Aircraft Applications, Automotive Applications
Density:
1490.0 - 1490.0 kg/m³
Tensile Strength:
26.0 - 26.0 MPa
Glass filled polyamide (nylon) material for real-world physical testing and functional useApplications Durable prototypes that require elevated stiffness and heat resistance Low to mid volume direct manufacturing of end-use parts Enclosures and housings that require more stiffness Aircraft and motorsports parts Sporting Goods Features Excellent mechanical stiffness Elevated temperature resistance Dimensionally stable Compatible with autoclave sterilization Benefits Durable Functional Design for manufacturability Eliminate tooling time and cost Versatile application capability
Extrudr
GreenTEC Pro Carbon carbon
Density:
1200.0 - 1200.0 kg/m³
GreenTEC Pro Carbon carbon is a biopolymer made from renewable resources with10% carbon fiber. The material offers high rigidity, very good mechanical properties and an increased temperature resistance. In addition, the raw material is approved according to the REACH- and RoHS-Standards.
FKuR
Fibrolon® 3D Cork
Product Families:
Thermoplastic Filament, 3D Printing Polymers
Chemical Family:
Polylactic Acid (PLA), Polyesters
Polymer Name:
Polylactic Acid (PLA), Copolyester Resin
Fibrolon® 3D Cork by FKuR is comprised of Copolyester Resin and Polylactic Acid. It is commonly used
Zortrax
Crown & Bridge RAYDENT® C&B
Polymer Name:
Thermoplastic (unspecified)
Processing Methods:
3D Printing
End Uses:
Dental Applications
3DMaterials® Crown & Bridge RAYDENT® C&B is a biocompatible Class IIa resin for the accurate 3D printing of crowns and bridges for temporary use. Full crowns or multi-unit bridges can be printed with abrasion resistance. 3DM® C&B can be cemented with conventional cement resins C&B resin is characterized by its abrasion resistance makes 3DM® C&B suitable for this application. The waterwashable and low viscosity 3DM® C&B allows for quick and easy cleanup of the crown & bridge. A1, A2, A3 shades are available
Push Plastic
Push Plastic PMMA
Polymer Name:
Polymethyl Methacrylate (PMMA)
Processing Methods:
Fused Filament Fabrication, 3D Printing
End Uses:
Modeling Material
PMMA is commonly used as a replacement for glass and is very clear in it's natural form. This material also has the ability to be acetone smoothed to give a truly clear print!
Essentium
ESSENTIUM HTN-Z
Polymer Name:
Polyamide (unspecified)
End Uses:
Electrical Components, Electrical Housing
Density:
1200.0 - 1200.0 kg/m³
Essentium HTN-Z (high-temperature nylon) is the ESD-safe version in our HTN line of materials. This material is designed for use in medium-duty electronics manufacturing. The HTN line 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 resistance. This material is a drop-in replacement for ESD-safe Acetal (Delrin®) and has best-in-class slow moisture absorption.
Fun To Do
Fun To Do Snow White Classic
Processing Methods:
Digital Light Processing
End Uses:
3D Printing Resins
Fun To Do Snow White Classic is the first resin in this market segment that is white, and stays white! It has a milky white color, which makes it an ideal resin for printing architectural designs or other designs where white is the predominant color. Combine Snow White with pigments from our pigment set to create any pastel color you like.
Solaxis
Solaxis Nylon 12 CF (carbon filled)
Applications:
Interior, Interior Fixtures, Tooling & Moldmaking
Product Families:
Other 3D Printing Polymers, 3D Printing Polymers
Chemical Family:
Polyamides
End Uses:
Prototyping, 3D Printing Applications
Solaxis Nylon 12 CF (carbon filled) is a carbon-filled thermoplastic with excellent structural characteristics. The material is comprised of a blend of Nylon 12 resin and chopped carbon fiber, at a loading of 35% by weight. This combination produces one of the strongest thermoplastics in the FDM® material portfolio. It has the highest flexural strength of any FDM thermoplastic, resulting in the highest stiffness-to-weight ratio. Appropriate uses include strong but lightweight tooling applications and functional prototypes in the aerospace, automotive, industrial and recreational manufacturing industries. FDM Nylon 12CF is available on the Fortus 450mc™ and Stratasys F900™ 3D Printers and is compatible with SR-110™ support material.
Ultimaker
Ultimaker PP
Density:
890.0 - 890.0 kg/m³
Flexural Modulus:
305.0 - 305.0 MPa
Ultimaker PP (polypropylene) is durable. It has high toughness,exceptional fatigue resistance, and low friction. It also has good chemical,temperature, and electrical resistance. PP is one of the most widely usedplastics on the planet. From electrical components to living hinges, PP isthe go-to material for prototyping and end-use products.
Elogio AM
Elogio AM PETG Carbon Filament
Polymer Name:
Polyethylene Terephthalate Glycol (PETG)
Processing Methods:
Fused Filament Fabrication
End Uses:
Automotive Exterior Parts, Automotive Interior Parts, Automotive Applications, Tooling
Density:
1317.0 - 1317.0 kg/m³
PETG Carbon Filament is a Polyethylene Terephthalate reinforced with carbon fibers. Due to the carbon fibers compounded in the PETG you can create 3D printed parts with exceptional stiffness, great dimensional stability and excellent suface quality. This filament is highly suitable for printing a wide range of industrial applications like frames, drones, tools, parts for the automotive and more.
Fabru
Fabru PC GF10
Polymer Name:
Polycarbonate (PC)
Processing Methods:
3D Printing
End Uses:
Prototyping
Fabru PC GF10 is a Polycarbonate.
Essentium
ESSENTIUM TPU 74D-Z
Polymer Name:
Thermoplastic Polyurethane (unspecified)
End Uses:
Scr Structural Components, Industrial Connectors, Electrical/Electronic Applications, Automotive Fuel Structural Components, Molds/Dies/Tools
Density:
1230.0 - 1230.0 kg/m³
Essentium TPU 74D-Z is a high durometer filament in Essentium’s electrostatically dissipative (ESD) portfolio. With non-marring surface properties, you don’t have to worry about latent failures in electronics. Essentium’s Z line of filaments are the only industrially-proven safe materials for ESD sensitive applications. Essentium TPU 74D-Z is a no-warp drop in replacement for ABS. It has excellent impact strength, tear strength, and abrasion resistance.
Fun To Do
Fun To Do Castable Blend
Processing Methods:
Digital Light Processing, Vacuum Casting
End Uses:
3D Printing Resins, Machine/Mechanical Parts, Toys
Fun To Do Castable Blend has been designed to cast your pieces in bronze, copper, tin or iron using standard vacuum investment casting methods and settings. It is an Ideal resin for casting pieces of art, Toy models, machine parts. The fully cured resin has a hardness of 73 shore D.
Zortrax
Zortrax Z-PEEK
Polymer Name:
Polyetheretherketone (PEEK)
Processing Methods:
3D Printing, Extrusion
End Uses:
Aerospace Applications, Machine/Mechanical Parts, Bearings
Density:
1300.0 - 1300.0 kg/m³
Flexural Modulus:
2700.0 - 2700.0 MPa
Z-PEEK is one of the strongest polymers on the planet. It has strength-to-weight ratio comparable to stainless steel and exceptional thermal properties. The material can withstand thermal-cycling in vacuum chambers used for space-qualification tests, radiation, or wear in over 22 million cycles in PEEK-steel gear pairs working at 1600 rpm.
Push Plastic
Push Plastic High Heat + Tough PLA - 3 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.
3D Systems
VisiJet® M5-X
Polymer Name:
Epoxy Resins & Compounds
Processing Methods:
Photopolymer Jetting, 3D Printing
End Uses:
Engineering Parts, Cosmetic Packaging, Bottles, Valve Parts, Household Goods, Valves, Piping
VisiJet M5-X is a strong, rigid material with a hybrid ABS/polypropylene-like performance-and-feel that makes brilliant white parts. This material makes bright white parts that look like they've been injection molded. Parts made from this material are rigid, making it an excellent fit for packaging products including bottles, household plastics, piping, valves and other parts that call for stiffness.
Volaprint
Volaprint Nylon natur
Applications:
Other Packaging Materials, Equipment & Parts, Other Industrial Applications
Product Families:
Thermoplastic Filament, 3D Printing Polymers
Chemical Family:
Polyamides
Polymer Name:
Polyamide 12 (PA 12)
End Uses:
Rigid Films, Rigid Packaging, Industrial Applications
Volaprint Nylon natur colored molding compound.
Volaprint
Volaprint ABS S Natur
Applications:
Consumer Electronics, Sports & Recreation, Other Consumer Goods Applications
Product Families:
Thermoplastic Filament, 3D Printing Polymers
Chemical Family:
Acrylonitrile Butadiene Styrene (ABS)
Polymer Name:
Acrylonitrile Butadiene Styrene (ABS)
End Uses:
Appliances, Lawn Equipment, Garden Equipment
Volaprint ABS S Natur is a natural colored molding compound.
Zortrax
Zortrax Z-SUPPORT Premium
Polymer Name:
Butenediol Vinyl Alcohol (BVOH)
Processing Methods:
3D Printing
End Uses:
Modeling Material
Z-SUPPORT Premium is a water-soluble support filament made of butenediol vinyl alcohol co-polymer (BVOH). It’s compatible with Z-GLASS, Z-PETG, Z-PLA, Z-PLA Pro, and Z-ULTRAT Plus, as it can work in a relatively wide range of printing temperatures. Z-SUPPORT Premium has a very fast dissolution rate and leaves no remnants on the model. Dissolvable support structures is a feature of LPD Plus technology introduced with Zortrax Inventure. Simultaneous 3D printing of base and support materials enables creating otherwise impossible shapes. Z-SUPPORT Premium is similar to PVA-based materials in that it allows to 3D print complex, detailed, hollow shapes as well as movable mechanisms in one go. The filament can be used to stack multiple batches of models one on top of the other to speed up short-series production.
Push Plastic
Push Plastic High Heat PLA - 3 kg
Polymer Name:
Polylactic Acid (PLA)
Labeling Claims:
Biodegradable
Processing Methods:
3D Printing, Fused Filament Fabrication
High Heat PLA (Polylactic Acid) 3D Printing Filament made from Natureworks 3D850 PLA. This grade exhibits faster crystallization rates and is able to develop improved heat-resistance in 3D printed parts. 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 80-130C for up to 30 minutes. Manufactured in the USA using High Heat PLA 3D850 resin. This material is a great substitute for normal PLA when greater heat resistance and impact strength is desired.
Taulman 3D
Taulman 3D Alloy 910
Polymer Name:
Polyamide 6/69 Copolymer
Processing Methods:
Fused Filament Fabrication, 3D Printing
End Uses:
Protective Coverings, Cams, Gears, Industrial Parts, Aerospace Applications, 3D Printing Applications, Electric Motors
Taulman 3D Alloy 910 is a significant development from taulman3D. The goal was to provide a material with very high tensile and sufficient elongation to maintain a high degree of durability. Alloy 910, when 3D Printed comes in at 8,100 PSI tensile and close to 12,000PSI when injection molded. It has become a trusted additive material for top aerospace and automotive companies globally. With a combined tensile strength higher than the strongest co-polyesters, the durability of nylons, a shrinkage factor that rivals our t-glase, a vast range of chemical resistance and a 82°C working range, you now have one solution easily printable at 250°C-255°C.
Volaprint
Volaprint ABS-UV
Applications:
Exterior & Body, Housewares, Automotive
Product Families:
Thermoplastic Filament, 3D Printing Polymers
Chemical Family:
Acrylonitrile Butadiene Styrene (ABS)
Polymer Name:
Acrylonitrile Butadiene Styrene (ABS)
End Uses:
Outdoor Furnishings, Household Goods, Automotive Exterior Parts
Volaprint ABS-UV is a natural-colored or colored molding compound.
Zortrax
Zortrax Z-PLA Pro
Flexural Modulus:
1830.0 - 1830.0 MPa
Zortrax Z-PLA Pro is a natural material which has been developed using biodegradable PLA as one of the components. Due to the highly reduced shrinkage level, this material allows you to print intricate shapes and objects rich in details with high dimensional accuracy. Z-PLA Pro exhibits exquisite surface quality that closely resembles the texture of gypsum casts. The excellent esthetics of the 3D printed models makes Z-PLA Pro perfect for supporting artistic projects and creating sizeable architectural designs as well as mock-ups in a convenient and eco-friendly way.
Zortrax
Zortrax Z-SUPPORT High-Temp
Polymer Name:
Thermoplastic (unspecified)
Processing Methods:
3D Printing
End Uses:
Aircraft Interiors, Automotive Components, Automotive Interior Parts, Aerospace Applications
Z-SUPPORT High-Temp is a breakaway support filament designed to withstand high temperatures necessary for printing polymers like Z-PEEK, Z-PEI 1010, or Z-PEI 9085. The material ensures high rigidity when the printing process is underway to guarantee appropriate stability to the structures of the model. When the printing is done and the model cools down, Z-SUPPORT High-Temp becomes more brittle which makes support removal easier. This way, Z-SUPPORT High-Temp serves double purpose. First, high-performance polymers have mechanical properties comparable to metals so using them to print support structures makes support removal almost impossible. Second, such materials are usually expensive so wasting them on printing supports is quite inefficient. Breakaway Z-SUPPORT HT is there to solve both those problems.
Show
36
of 448 results
Go to page
1
2
3
4
5
6
7
8
9
10