Nylon 11 Powder
For highly ductile, robust parts, Nylon 11 Powder is our higher performance nylon material for functional prototyping and small batch production.
- Impact-resistant prototypes, jigs, and fixtures
- Thin-walled ducts and enclosures
- Snaps, clips, and hinges
Nylon 11 CF Powder
Get the best of nylon and carbon fiber with this highly stable, lightweight, high-performance material, perfect for end-use applications that require both high stiffness and superior strength.
- Replacement and spare alternatives to metal parts
- Tooling, jigs, fixtures
- High-impact equipment
- Functional composite prototypes
Nylon 12 Powder
Balancing strength and detail, Nylon 12 Powder is a highly capable material for both functional prototyping and end-use production of complex assemblies and durable parts with high environmental stability.
- High-performance prototyping
- Small batch manufacturing
- Permanent jigs, fixtures, and tooling
- Biocompatible, sterilizable parts
Nylon GF Powder
A glass-filled material with enhanced stiffness and thermal resistance, Nylon 12 GF Powder is ideal for producing functional prototypes or end-use parts for applications where structural rigidity and thermal stability are critical.
- Glass-filled
- Thermally stable
- Dimensionally stable under sustained load
- Suitable for long-term functional parts
TPU 90A Powder
Balancing high elongation at break and superior tear strength, TPU 90A Powder enables you to produce flexible, skin-safe prototypes, and end-use parts that withstand the demands of everyday use.
- Wearables and soft-touch elements
- Gaskets, seals, masks, belts, plugs, and tubes
- Protective sports equipment
- Padding, dampers, cushions, and grippers
For Formlabs SLS 3D Printers
The Formlabs Fuse 1+ 30W 3D printer introduces an affordable journey into SLS 3D Printing. Now produce fully-functional parts with up to 70% recycled powder to maximize recyclability and optimize cost per part.
- New materials enabled by the upgraded powder handling system
- Enhanced mechanical properties by printing in an inert gas environment with nitrogen input.
