Print Strong, Heat-Resistant Metal Replacement Parts
Carbon fiber reinforced nylon optimized for high strength to weight ratio, stiffness, and heat resistance making it ideal for structural applications and metal.
184ºC heat deflection
110 Mpa Tensile Strength
7,600 Mpa Tensile Modulus
Return Policy
Time to Return
Standard Return Policy
Refund or Replacement within 45 days of the delivery date. All products that fall under the Standard Return
Policy
qualify for our 45-Day Hassle-Free Returns. Please see the section above for more details.
Replacement Only Return Policy
Replacement within 45 days of the delivery date.
Manufacturer Only Return Policy
Covered by the manufacturer's warranty.
Please refer to the terms and conditions for the manufacturer's warranty or contact the manufacturer.
Holiday Extended Return Policies
Extended Holiday Return Policy.
Qualifying purchases of products displaying the " Extended Holiday
Return Policy ",
from November 1st, 2023 to December 25, 2023, are eligible for a Refund or Replacement until January 31,
2024.
Extended Holiday Replacement-Only Return Policy
Qualifying purchases of products displaying the " Extended Holiday
Replacement-Only Return Policy ",
from November 1st, 2023 to December 25, 2023, are eligible for a Replacement until January 31, 2024.
FAQ
No, this filament is specifically designed for MakerBot 3D printers, including the Method, Method X, and Composite Extruder 1C.
Nylon carbon fiber filament offers high strength and durability, making it ideal for functional prototypes and end-use parts that require extra toughness.
This package contains approximately 1.10 lb (0.5 kg) of MakerBot Method Nylon Carbon Fiber Filament.
No, this specific product is available in black color only.
Yes, MakerBot Method Nylon Carbon Fiber Filament is suitable for outdoor use due to its excellent resistance to UV light and weathering.
The addition of carbon fiber to the nylon filament enhances its strength, stiffness, and heat resistance, making it more suitable for demanding applications.
Yes, you can paint or post-process prints made with MakerBot Method Nylon Carbon Fiber Filament, just like regular nylon prints. However, keep in mind that the carbon fiber content may affect the surface finish.
Yes, due to the carbon fiber content, it is recommended to use a hardened steel nozzle and adjust the print settings to accommodate the increased stiffness of the filament.
No, MakerBot Method Nylon Carbon Fiber Filament is not suitable for flexible or elastic prints. It is designed for high-strength, rigid applications.
Yes, MakerBot Method Nylon Carbon Fiber Filament is recyclable. You can recycle it through appropriate recycling programs or facilities.
No, this filament is not food-safe and should not be used for food-contact applications.
The printing time depends on the complexity and size of the model, as well as the settings used. It is recommended to refer to the printer's documentation for estimated printing times.
Yes, MakerBot Method Nylon Carbon Fiber Filament has good heat resistance, allowing it to withstand higher temperatures compared to regular nylon filament.
It is recommended to store MakerBot Method Nylon Carbon Fiber Filament in a cool, dry place, away from direct sunlight and moisture, to maintain its quality and performance.
It is not recommended to mix MakerBot Method Nylon Carbon Fiber Filament with other materials, as it may affect the print quality and properties of the final object.
Yes, MakerBot Method Nylon Carbon Fiber Filament is well-suited for functional prototypes that require high strength and durability.
Depending on the desired finish, you may need to sand, polish, or apply coatings to prints made with MakerBot Method Nylon Carbon Fiber Filament.
Yes, MakerBot Method Nylon Carbon Fiber Filament is suitable for various industrial applications, including jigs, fixtures, tooling, and functional parts.
No, MakerBot Method Nylon Carbon Fiber Filament is not compatible with water-soluble support materials. It is recommended to use breakaway or dissolvable support materials instead.
