PRINT STRONG, HEAT-RESISTANT METAL REPLACEMENT PARTS
Print carbon fiber reinforced nylon and other engineering-grade composite parts with three dimensional strength and accuracy like never before on METHOD’s unique industrial desktop platform.
PRINT STRONG, HEAT-RESISTANT METAL REPLACEMENT PARTS
Print carbon fiber reinforced nylon and other engineering-grade composite parts with three dimensional strength and accuracy like never before on METHOD’s unique industrial desktop platform.
STRONG, HEAT-RESISTANT METAL REPLACEMENT PARTS
Carbon fiber reinforced nylon is optimized for high strength, stiffness, and heat resistance making it ideal for structural applications and metal replacements.
SUPERIOR NYLON CARBON FIBER PARTS WITH METHOD
METHOD’s unique industrial feature set produces carbon fiber parts with superior three dimensional strength and accuracy
WHY CHOOSE METHOD?
METHOD is a Next-Generation desktop 3D printing platform that delivers manufacturing-grade parts with advanced engineering materials
A Heated Chamber That Delivers Stronger Manufacturing-Grade Parts.
An Open Platform for Advanced Engineering Materials.
Guaranteed Part Accuracy and SR-30 Soluble Support .
Save Engineering Time with an Automated Workflow and CAD Integration.
Carbon fiber reinforced nylon 6/66 blend for high strength to weight ratio and heat resistance. For max performance in controlled environments.
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- - 184°C HDT @0.455 MPa
- - 110 MPa Tensile Strength
- - 7600 MPa Tensile Modulus
- Optimal performance requires extra steps and a controlled environment
- Filament should be dried before printing
- Higher print temp may result in stringing
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Carbon fiber reinforced nylon 12 provides the easiest carbon fiber composite 3D printing experience thanks to superior moisture resistance. For consistent performance in any environment.
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- - 154°C HDT @0.455 MPa
- - 66 MPa Tensile Strength
- - 6000 MPa Tensile Modulus
- No additional steps required before or after print process
Nylon (6/66) Carbon Fiber has the highest peak performance in all categories, it is significantly affected by moisture which will reduce both strength and modulus.
Nylon 12 Carbon Fiber is less affected by moisture and will retain more of its performance in the presence of moisture.
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Print Carbon Fiber and a selection of polymers with the aid of a 60°C heated chamber
Print Carbon Fiber + the full range of engineering composites and polymers with a 110°C heated chamber
Print Carbon Fiber and a selection of polymers with the aid of a 60°C heated chamber
Print Carbon Fiber + the full range of engineering composites and polymers with a 110°C heated chamber
METHOD TECH SPECS
