3DXTECH Filaments
Order 3D printing filament for all desktop printers. Try Carbon Fiber, ESD-Safe, and Glass Fiber materials manufactured in the United States by 3DXTECH.
3DXTECH Filaments
$58.00 – $138.00
CarbonX™ ABS+CF is made using our high-flow ABS and premium high-modulus carbon fiber. This material offers ease of printing, strength & stiffness, excellent dimensional stability, and an amazing surface finish.
CarbonX™ ABS+CF is a high-performance carbon fiber reinforced ABS filament ideal for anyone that desires a structural component with high modulus, excellent surface quality, dimensional stability, light weight, and ease of printing. Made using 15% High-Modulus Carbon Fiber (not carbon powder or milled carbon fiber). Made in the USA using premium Sabic MG-94 ABS and high modulus carbon fiber.
Print industrial-grade parts using our ABS+CF and more with the new Gearbox™ HT2 High-Temp 3D Printer.
Extruder Temp
220-240°C
Bed Temp
100-110°C
Heated Chamber
Recommended
Nozzle Specs
0.4mm diameter minimum
Hardened Steel Nozzle
Bed Adhesion
Magigoo Bed Prep
Layer Height
0.25mm or higher
Drying Specs
80°C for 4 hours
Supports
Water Soluble Support
1.75mm and 2.85mm +/- 0.05mm in diameter
What Is It?
Fibers 5-10 micrometers wide made of carbon. The fibers are aligned following the axis of the material.
This, along with their physical makeup, are what give this material its excellent properties.
What Does It Do?
Carbon Fibers demonstrate a lot of desirable material properties:
How Does It Work?
Reinforcing plastic with carbon fibers produces a 3D printing filament which exhibits the best properties of both the carbon fibers and the plastic of choice.
What Is It Good For?
Ideal for any applications which require light weight and rigidity.
Carbon fiber reinforced parts, designed to use less material and save weight, is extremely popular in aerospace, civil engineering, the military, and motorsports.
This material is particularly abrasive among 3D printing filaments. Users may find standard brass nozzles are chewed through very quickly compared to standard wear and tear. When worn through, the nozzle diameter will widen inconsistently and the printer will experience extrusion issues.
Because of this, it's strongly recommended this material be printed through a hardened steel nozzle rather than a softer metal. Hardened steel nozzles can often be inexpensive and easily installed depending on your printer manufacturer's instructions.
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