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Plastics
3D Printing Polymers
Products in 3D Printing Polymers: Housings
19 Products found in 3D Printing Polymers
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Nexa3D
Nexa3D xPP405-Clear
Processing Methods:
3D Printing, Digital Light Processing
End Uses:
Molds/Dies/Tools, Housings, Power/Other Tools, Consumer Applications
Density:
1050.0 - 1050.0 kg/m³
Tensile Strength:
27.0 - 33.0 MPa
Nexa3D xPP405-Clear is a high elongation and high toughness material with outstanding impact resistance and excellent surface finish. This stiff and durable high performance material is ideal for a wide variety of tools in the production floor, including manufacturing aids and final parts such as housings and consumer goods applications. The unique set of performance attributes makes it comparable to an unfilled thermoplastic like polypropylene. Parts can be printed with various DLP printers and machined, tapped, or polished for final finish.
Nexa3D
Nexa3D xPP405-Black
Processing Methods:
3D Printing, Digital Light Processing
End Uses:
Molds/Dies/Tools, Housings, Power/Other Tools, Consumer Applications
Density:
1046.0 - 1046.0 kg/m³
Tensile Strength:
23.0 - 25.0 MPa
Nexa3D xPP405-Black is a high elongation and high toughness material with outstanding impact resistance and excellent surface finish.This stiff and durable high performance material is ideal for a wide variety of tools in the production floor, including manufacturing aids and final parts such as housings and consumer goods applications. The unique set of perform anceattributes makes it comparable to an unfilled thermoplastic like polypropylene. Parts can be printed with various DLP printersand machined, tapped, or polished for final finish.
3D Systems
Accura® Bluestone
Polymer Name:
Epoxy Resins & Compounds
Processing Methods:
3D Printing, Stereolithography
End Uses:
Automotive Applications, Aerospace Applications, Fittings, Power/Other Tools, Housings, Electrical Components
Tensile Strength:
66.0 - 68.0 MPa
Features Highest stiffness available Heat and abrasion resistant Excellent chemical resistance Great for windtunnel models, jigs and fixtures
Elogio AM
Elogio AM ABS ESD Filament
Polymer Name:
Acrylonitrile Butadiene Styrene (ABS)
Processing Methods:
Fused Filament Fabrication
End Uses:
Housings, Industrial Connectors
Density:
1030.0 - 1030.0 kg/m³
ABS ESD Filament has been designed for protection of electronic devices which are sensitive to electrostatic discharges. The material prevents the risk of damage to vulnerable electronic components due to its dissipative properties. Its surface resistivity ranging from 10^7 to 10^9 Ohm. The filament is ideal for industrial applications like housings / casings for connectors, sensors and measuring devices. Available in black and its natural color.
3D Systems
DuraForm® PA
Polymer Name:
Polyamide (unspecified)
Processing Methods:
Selective Laser Sintering, 3D Printing
End Uses:
Prototyping, Housings, Connectors, Computer Components, Machine/Mechanical Parts, Medical/Healthcare Applications, Sporting Goods, Consumer Applications, Automotive Interior Trim, Aerospace Applications
Density:
1000.0 - 1000.0 kg/m³
Tensile Strength:
43.0 - 43.0 MPa
Durable polyamide (nylon) material for real-world physical testing and functional use.Applications Complex, thin-wall ductwork Functional prototypes that approach end-use performance properties Appropriate for low-to-mid-volume rapid manufacturing Medical applications requiring USP Class VI compliance, or biocompatibility Motorsports Aerospace Housing and enclosures Impellers and connectors Consumer sporting goods Vehicle dashboards and grilles Snap-fit designs Parts requiring machining or joining with adhesives Features Excellent surface resolution and feature detail Easy-to-process Compliant with USP Class VI testing Compatible with autoclave sterilization Good chemical resistance and low moisture absorption Benefits Nicely balanced mechanical properties and processability Build prototypes that withstand functional testing Produce durable end-use parts without tooling Create accurate and repeatable parts as demanded by manufacturers Machinable and paintable for demonstration parts
Zortrax
Zortrax Z-ESD
Polymer Name:
Thermoplastic (unspecified)
Processing Methods:
3D Printing
End Uses:
Housings, Tooling, Industrial Parts
Flexural Modulus:
1500.0 - 1500.0 MPa
Z-ESD is a material which perfectly fits the needs of the industrial sector, especially the electrical and electronics industries. It is durable, warpage resistant, and provides protection against electrostatic discharge which can be particularly damaging to electronic equipment. This unique property can significantly help to reduce the loss of electronic components and generate savings. Z-ESD allows you to print functional objects, elements and casings containing highly sensitive electronics, and tools used for control processes.
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
Massivit 3D
Dimengel 300
Polymer Name:
Thermoset (unspecified)
Processing Methods:
3D Printing
End Uses:
Prototyping, Housings, Displays
Density:
1050.0 - 1050.0 kg/m³
Tensile Strength:
40.0 - 40.0 MPa
Dimengel 300 (DIM 300) is a thermoset photo polymeric material ideal for production of large, translucent 3D printed parts. DIM 300 facilitates translucent prototype housings, concept models, interior design and architectural elements, scenic displays, design verification, and a range of advertising applications. For optimal results, parts should be polished or lacquered according to Massivit 3D's recommended post processing methods. As with Massivit 3D's range of advanced, proprietary materials, DIM 300 enables ultra-fast production of large, complex parts that instantly cure during printing., providing ready-made solid objects straight off the printer with little-to-no need for internal support structures.
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.
Taulman 3D
Taulman 3D Nylon 230
Polymer Name:
Polyamide (unspecified)
Processing Methods:
Fused Filament Fabrication, 3D Printing
End Uses:
Cosmetic Packaging, Housings, Cell Phones, Gears, Protective Coverings
Taulman 3D Nylon 230 is a lower temperature nylon developed by taulman3D specifically for 3D Printing on systems that have cold print beds and lower temp capabilities.
Elogio AM
Elogio AM ABS Kevlar Filament
Density:
1037.0 - 1037.0 kg/m³
Flexural Modulus:
1509.0 - 1509.0 MPa
ABS KEVLAR has been designed for 3D printing by a precise formulation of aramid fibers into ABS materials. The aramid fibers assuring dimensional stability ,preventing the printed object to warp and even make the printed object lighter than regular ABS.
Carbon Inc.
CarbonResin™ EPX 82
Polymer Name:
Epoxy Resins & Compounds
Processing Methods:
3D Printing, Digital Light Synthesis
End Uses:
Housings, Connectors
Density:
1155.0 - 1155.0 kg/m³
CarbonResin™ EPX 82 combines functional toughness, stiffness, and temperature resistance making it useful in a variety of automotive, industrial, and consumer applications. EPX 82 is a high-strength engineering material with excellent long-term durability and mechanical properties comparable to lightly glass-filled thermoplastics (e.g. 20% GF-PBT, 15% GF-Nylon). EPX 82 has a heat deflection temperature ranging from 104°C to 130°C (depending on conditioning) and the functional toughness required for a variety of automotive and industrial applications such as connectors, brackets, and housings.
3D Systems
DuraForm® FR 100
Polymer Name:
Thermoplastic (unspecified)
Processing Methods:
Selective Laser Sintering, 3D Printing
End Uses:
Engineering Parts, Prototyping, Housings, Connectors, Computer Components, Pacifiers, Telecommunications, Appliance Components, Construction Applications, Sporting Goods, Electrical/Electronic Applications, Automotive Applications, Aerospace Applications
DuraForm® FR 100 is halogen-free flame retardant plastic is suitable for Rapid Manufacturing of Aerospace and consumer products where flame retardancy and reduced smoke toxicity is required.In addition to meeting the flame retardancy necessary for many potential aerospace applications, DuraForm® FR100 has been formulated to reduce production of smoke and related toxic byproducts of combustion and achieve UL94 V-0 rating to meet the needs of today's human environmental safety for many other consumer applications.Applications Aerospace and aircraft cabin, compartment & cargo Computers Business equipment Electrical appliances Telecommunications equipment Building and structural components Transportation Complex, thin-walled ductwork Unmanned air vehicles (UAV's) Housings and enclosures Connectors Consumer goods and sporting products Vehicle dashboards and grilles Bumpers Rapid manufacturing Features Flame retardant Halogen and Antimony free FAR 25.853 (non-drip) compliant UL94 V-0 compliant Low smoke density and toxicity Excellent toughness and with good impact resistance Easy to process No emission of corrosive gasses Meets aerospace smoke density and toxicity requirements Benefits Offers toughness of injection molded plastics Build prototypes that withstand functional testing Produce durable end-use parts without tooling Create accurate and repeatable custom parts Increase market opportunities through flame retardancy.
NANOVIA
NANOVIA ABS ESD Anti electric shock
Polymer Name:
Acrylonitrile Butadiene Styrene (ABS)
Processing Methods:
Fused Filament Fabrication, 3D Printing
End Uses:
Housings, Connectors
Nanovia ABS ESD is a powder carbon based composite specifically designed to be used in conjunction with sensitive electronic equipment. Preventing the build-up of static electricity.
3D Systems
DuraForm® ProX GF
Flexural Modulus:
3120.0 - 3120.0 MPa
3D Systems
DuraForm® ProX PA
Tensile Strength:
45.0 - 55.0 MPa
Elogio AM
Elogio AM ABS Filament
Density:
1050.0 - 1050.0 kg/m³
Elogio AM ABS Filament is a thermoplastic and a copolymer that is used for rigid objects. It consists of 5-30% Butadiene, around 50% Styrene and the rest is Acrylonitrile. ABS is a strong material with high toughness and impact resistance. The maximum operating temperature is between 85 °C and 100 °C, depending on the modifications. The minimum operating temperature is -35 °C. ABS is a flammable polymer to which flame retardant can be added. It is also subject to aging by being exposed to the weather conditions (UV light, oxygen, moisture, heat) because Polybutadiene stimulates the oxidation of Polystyrene. This causes discolouration and the plastic loses its mechanical strength. In order to improve this UV stabilizers can be added.
3D Systems
DuraForm® EX
Processing Methods:
Selective Laser Sintering, 3D Printing
End Uses:
Sporting Goods, Prototyping, Housings, Connectors, Automotive Interior Trim, Aerospace Applications, Automotive Bumpers, Living Hinges
Tensile Strength:
48.0 - 48.0 MPa
Manufacture tough, impact-resistant plastic prototypes or end-use parts requiring molded-part performance and capable of withstanding harsh enviroments.Applications Complex, thin-walled ductwork Motorsports Aerospace Unmanned air vehicles (UAV's) Housings and enclosures Impellers Connectors Consumer sporting goods Vehicle dashboards and grilles Bumpers Snap-fit designs Living hinges Features Outstanding toughness Excellent impact resistance Repeatable mechanical properties Easy-to-process Consistent black or natural color Benefits Parts have the toughness of injection molded ABS and polypropylene Functional prototypes can be tested in "real life" enviroments Complex end-use parts can be economically manufactured in low and medium volumes No painting required for black parts
3D Systems
DuraForm® HST
Polymer Name:
Thermoplastic (unspecified)
Processing Methods:
Selective Laser Sintering, 3D Printing
End Uses:
Sporting Goods, Prototyping, Housings, Connectors, Computer Components, Consumer Applications
Applications Functional prototypes and end-use parts that require high stiffness and/or elevated thermal resistance Typical Applications include: UAV structural components Housings and enclosures Impellers Connectors Consumer sporting goods Features High specific stiffness Elevated temperature resistance Anisotropic mechanical properties just like fiber-filled, injection molded materials Non-conductive and RF transparent Easy-to-finish surface Benefits Functional prototypes can be tested in "real life" environments Complex end-use parts can be economically manufactured in low-to-medium volumes Excels in load-bearing applications at higher temperatures Attractive surface finish