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Choose from a Wide Range of Materials for Your Print
Polymers
POM (Delrin/Acetal)
PETG
PLA
Nylon
ASA
PEEK
Polycarbonate
Polyethylene
Carbon Fiber NYLON/PETG/ABS/PC
HIPS Filament
Metal
Aluminum
Stainless steel
Mild steel
Brass
Copper
Tool steel
Titanium
Inconel
Wolfram
Invar
Elastomer
EPM
TPU
Epichlorohydrin rubber (ECO)
Polyacrylic rubber (ACM, ABR)
Silicone rubber (SI, Q, VMQ)
Fluorosilicone rubber (FVMQ)
Fluoroelastomers (FKM, and FEPM)
Viton, Tecnoflon, Fluorel, Aflas
Perfluoroelastomers (FFKM)
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Choose by Category
POLYMERS
POM
Resistant to friction, POM (Polyoxymethylene) filament is polymer for printing objects with high precision and excellent resistance. Even closer to plastic injection, resulting prototypes are more functional, mechanical and aesthetic.
Material Properties
Thermal Resistance
-40 - 150°C
Tensile Strength
67 MPa
Flexural Modulus
2,800 MPa
Density
1.41 g/cm³
PETG
PETG is perfect for printing high-performance parts that require a high degree of durability, as well as chemical, moisture and temperature resistance when compared with using standard PLA or tough material. Good application fits include functional prototypes, jigs, fixtures, and end-use parts.
Material Properties
Thermal Resistance
85°C
Tensile Strength
50 MPa
Flexural Modulus
2,050 MPa
Density
1.23g/cm3
PLA
PLA is a great material for early concept models because it is easy to use, office-friendly, and works great with breakaway supports which print faster and can be removed faster than dissolvable supports. PLA is a corn-based plastic and is considered biodegradable under industrial processes.
Material Properties
Thermal Resistance
49-52°C
Tensile Strength
62 MPa
Flexural Modulus
2,600 MPa
Density
1.24 g/cm³
NYLON
Nylon 3D printing filament is a popular material due to its excellent toughness, abrasion resistance, and impact resistance. Therefore, it is ideal for use in hard-wearing applications like gears, fasteners, and cable ties. Nylons have excellent resistance to alkalis and organic chemicals like oils and fuels but are degraded by halogens and inorganic acids.
Material Properties
Thermal Resistance
89.2 ± 5.6 °C
Tensile Strength
100 MPa
Flexural Modulus
1,060 MPa
Density
1.14 g/cm³
ASA
Acrylonitrile Styrene Acrylate (ASA) is a synthetic, amorphous thermoplastic that works best in material extrusion printing. It is a high impact material that can be used to produce functional parts for automotive applications, electronics, tooling, and more. It is known for having high weather and UV resistance, making it a great candidate for outdoor applications.
Material Properties
Thermal Resistance
92 °C
Tensile Strength
33 MPa
Flexural Modulus
2,606 MPa
Density
1.07 g/cm³
PEEK
Polyetheretherketone (PEEK) is a semi-crystalline, high-performance organic thermoplastic polymer that belongs to the PAEK family. PEEK belongs to the high-performance polymers. The combination between mechanical strength, high temperature characteristics and superior chemical resistance, make it the material of choice for harsh environments.
Material Properties
Thermal Resistance
250 °C
Tensile Strength
89 MPa
Flexural Modulus
3,500 MPa
Density
1.29 g/cm³
Polycarbonate
Polycarbonate (PC) is a high-performance, synthetic filament used for fused filament fabrication 3D printing. It is a recyclable material that can be engineered to meet specific application or processing requirements, such as low warping. It’s toughness and rigidity make it an ideal material for higher demanding 3D-printing applications.
Material Properties
Thermal Resistance
112 °C
Tensile Strength
63 MPa
Flexural Modulus
2,010 MPa
Density
1210 kg/㎥
Polyethylene
Polyethylene Terephthalate (PET) is a polyester-based 3D printing material that combines excellent mechanical, electrical and thermal properties with very good chemical resistance and dimensional stability. PET also has low moisture absorption features and good flow properties, making it a great material to use for waterproof containers such as food and beverage storage.
Material Properties
Thermal Resistance
70 °C
Tensile Strength
63.6 MPa
Flexural Modulus
2,450 MPa
Density
1400 kg/㎥
Carbon Fiber
Nylon Carbon Fiber (CF) filled material is a composite filament used in FDM (Fused Deposition Modeling) 3D printing. It is a blend of nylon polymer infused with carbon fibers, resulting in a unique combination of strength, stiffness, and durability. Nylon Carbon Fiber filled material offers an excellent balance of strength, stiffness, and durability. Its enhanced properties make it a versatile choice for demanding applications where high-performance parts are required. Whether it's for functional prototypes, end-use parts, or specialized components, Nylon CF provides engineers and designers with a reliable and robust material option for their 3D printing projects.
Material Properties
Thermal Resistance
155 °C
Tensile Strength
100 MPa
Flexural Modulus
6,000 MPa
Density
1 g/c㎥
HIPS
HIPS-based products are incredibly similar to their ABS-printed counterparts. As a matter of fact, HIPS boasts superior impact resistance and is more lightweight. The material is easy to paint, post-process, and it is compatible with a plethora of adhesives. Moreover, HIPS is FDA-compliant, meaning that the material is safe for direct food contact. In 3D printing, HIPS is mainly used as an auxiliary material because it dissolves in D-limonene. This completely eliminates the need to remove all the unnecessary parts (e.g. supports) with abrasives, cutting tools, and other instruments that can damage the final product.
Material Properties
Thermal Resistance
100 °C
Tensile Strength
22 MPa
Flexural Modulus
1,800 MPa
Density
1.04 g/cm³
ELASTOMERS
EPM
EPM has a large number of uses due to the many ways in which the polymer can be designed, for example; it is used in automotive weather-stripping and seals, self-amalgamating tape, glass run channels, radiators, garden and appliance hoses, tubing, belts, roofing membranes, expansion joints, rubber mechanical goods, plastic impact modification, thermoplastic vulcanisates and motor oil additive applications. EPM is even more prevalent as an insulator for high-voltage cables (usually referred as HEPR - Hard grade Ethylene Propylene Rubber) since it has improved insulative characteristics over more traditional cables, such as cross-linked polyethylene, enabling a smaller cross sectional area for the same load carrying capacity.
Material Properties
Thermal Resistance
-50 - 160°C
Tensile Strength
21 MPa
Flexural Modulus
4,480 MPa
Density
860 kg/cm³
TPU
Industrial manufacturers 3D print with TPU to produce durable parts with rubber-like properties, without the need for casts or molds. It can stretch more than 5x its original shape before failing. Parts printed in TPU have the rubber-like material’s elasticity, shock absorption, impact resistance, vibration dampening, and potential for elongation. TPU is also a very durable material, with high resistance to abrasions, chemicals, oil, and low temperatures, as well as a moderate resistance to water. TPU filament is available in varying levels of hardness. Varying levels of flexibility can also be achieved through alternating the level of infill. A lower infill density will yield a more flexible part, whereas a higher infill can make the part more rigid.
Material Properties
Thermal Resistance
100 °C
Tensile Strength
46 MPa
Flexural Modulus
97 MPa
Density
1235 kg/m3
