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

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

  • Housings and enclosures

  • Impellers and connectors

  • Consumer sporting goods

  • Vehicle dashboards and grilles

  • Snap-fit designs

3D Printers that use this material:

  • sPro™ 140

  • sPro™ 230

  • sPro™ 60 HD

Features:

  • Excellent mechanical stiffness

  • Elevated temperature resistance

  • Dimensionally stable

  • Easy-to-process

  • Nice surface finish

Benefits:

  • Excels in load bearing applications at higher temperatures

  • Build prototypes and end-use parts without tooling

  • Create accurate and repeatable parts as demanded by manufacturers

  • Machinable and paintable for demonstration parts

  • Improved isotropic shrinkage due to glass filler

Applications:

  • Housings and enclosures

  • Consumer sporting goods

  • Appropriate for low- to mid-volume rapid manufacturing

  • Parts requiring machining or joining with adhesives

  • Complex production and prototype plastic parts

  • Form, fit, or functional prototypes

  • Parts requiring stiffness

  • Thermally stressed parts

 

3D Printers that use this material:

  • sPro™ 140

  • sPro™ 230

  • sPro™ 60 HD

  • More recyclable than competitive powders, offering a 5% to 10% typical increase in powder usage

  • Improved part surface finish and feature detail.

  • The dry powder flow has been optimized for user friendly processing.

  • Easy to process and can be run as a drop-in replacement for other commercially available PA 12 laser sintering powders.

Features:

  • High specific stiffness

  • Elevated temperature resistance

  • Good powder recycling characteristics

  • Easy-to-process

  • Excellent surface finish

Benefits:

  • Excels in load bearing applications at higher temperatures

  • Produce durable end-use parts without tooling

  • Build prototypes that withstand functional testing

  • Create accurate and repeatable parts as demanded by manufacturers

  • Sandable and paintable finished part surfaces

Applications:

  • Housings and enclosures

  • Impellers

  • Connectors

  • Consumer sporting goods

  • Functional prototypes that approach end-use performance properties

  • Parts requiring machining or joining with adhesives

  • Parts requiring stiffness

  • Thermally stressed parts

3D Printers that use this material:

  • sPro™ 140

  • sPro™ 230

  • sPro™ 60 HD

Material Summary:

A halogen and antimony-free, flame retardant engineering plastic, suitable for Rapid Manufacturing of aerospace parts and parts requiring UL 94 V-0 compliance.

Application Examples:

  • Aircraft parts with FAR 25.853 (non-drip) and low smoke density and toxicity requirements

  • Aircraft cabin, compartment & cargo parts

  • Consumer products with UL94 V-0 requirements

  • Enclosures and parts for computers, business equipment and appliances

3D Printers that use this material:

  • sPro™ 60 HD

Features:

  • Outstanding toughness

  • Excellent impact resistance

  • Repeatable mechanical properties

  • Easy to process

  • Good powder recycling characteristics

Benefits:

  • Offers toughness of injection-molded ABS and polypropylene

  • Build prototypes that withstand aggressive functional testing

  • Produce durable end-use parts without tooling

  • Create accurate and repeatable parts as demanded by manufacturers

  • Increase market opportunities through enhanced properties

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

  • Functional prototypes that require end-use performance properties

  • Appropriate for low- to mid-volume rapid manufacturing

3D Printers that use this material:

  • sPro™ 140

  • sPro™ 230

  • sPro™ 60 HD

Features:

  • Outstanding toughness

  • Excellent impact resistance

  • Repeatable mechanical properties

  • Easy to process

  • Good powder recycling characteristics

Benefits:

  • Offers toughness of injection-molded ABS and polypropylene

  • Build prototypes that withstand aggressive functional testing

  • Produce durable end-use parts without tooling

  • Create accurate and repeatable parts as demanded by manufacturers

  • Increase market opportunities through enhanced properties

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

  • Functional prototypes that require end-use performance properties

  • Appropriate for low- to mid-volume rapid manufacturing

3D Printers that use this material:

  • sPro™ 140

  • sPro™ 230

  • sPro™ 60 HD

Features:

  • Durable with good tear resistance

  • Vary Shore A hardness without changing material

  • Easy-to-process

  • Good powder recycle characteristics

  • Good surface finish and feature detail

Benefits:

  • Withstands repeated bending and flexing

  • Build prototypes that withstand functional testing

  • Produce durable end-use parts without tooling

  • DuraForm® FlexSeal infiltration offers array of colors

  • Polyurethane infiltration creates watertight barrier and improves burst strength

Applications:

  • Athletic footwear and equipment

  • Gaskets, hoses and seals

  • Simulate thermoplastic elastomer, cast

  • urethane, silicone and rubber parts

  • “Soft-touch,” overmolded grips

  • Parts requiring rubber-like flexibility and durability

  • Form, fit, or functional prototypes

  • Parts that require joining with adhesives

  • Complex production and prototype plastic parts

  • Appropriate for low- to mid-volume rapid manufacturing

  •  

3D Printers that use this material:

  • sPro™ 140

  • sPro™ 230

  • sPro™ 60 HD

Features:

  • Functions like foundry wax and is “foundry friendly”

  • Low residual ash content (less than 0.02%)

  • Short burnout cycle

  • Easy-to-process plastic

  • Good plastic powder recycle characteristics

Benefits:

  • Create complex patterns without welds or joints

  • Reduce lead times resulting in faster time-to market

  • Compatible with autoclaves, low-temperature furnaces, and vacuum plaster casting methods

  • Easy to assemble and repair patterns

  • Rapidly test new designs in iterative process

Applications:

  • Create patterns directly rather than through indirect methods

  • Complex investment casting patterns

    • Reactive metals like titanium

    • Low melt-temperature metals such as aluminum, magnesium and zinc

    • Ferrous and non-ferrous metals

  • Economic, low-volume production castings without tooling

  • Smaller parts can be joined to create very large patterns

  • Sacrificial, expendable patterns

3D Printers that use this material:

  • sPro™ 140

  • sPro™ 230

  • sPro™ 60 HD

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