3DXTech CarbonX HTN+CF

3DXTech CarbonX™ HTN+CF – High-performance nylon with carbon fiber

CarbonX™ HTN+CF from 3DXTech is a high-temperature nylon (PPA) reinforced with carbon fibers – developed for components requiring maximum strength, stiffness, and heat resistance . With excellent dimensional stability and low moisture absorption, it is ideal for industrial and engineering applications where standard materials are inadequate.

Highlights & Benefits

• Extremely resilient: tensile strength 87 MPa, heat deflection 240 °C.
• Carbon fiber reinforced: High rigidity & dimensional stability even under load.
• Precise printing results: Low shrinkage & excellent dimensional accuracy.
• Chemical resistant: Resistant to oils, fuels, acids and salts.
• Industrial applications: Suitable for automotive, aerospace, oil & gas and demanding industrial projects.
• Versatile: Ideal for tools, fixtures & functional prototypes.

Developed for extreme requirements

CarbonX HTN+CF combines PPA high-temperature nylon with high-modulus carbon fibers. The result: excellent mechanical properties, high heat resistance, and stability in environments where other materials fail.

Durable in harsh environments

The filament is resistant to moisture and aggressive chemicals —including fuels, oils, acids, and salts. This makes it the first choice for use in the automotive, aerospace, oil & gas, and mechanical engineering industries.

Reliable printability

Recommended print settings:

• Extrusion: 285–315 °C
• Print bed: 110–130 °C
• Nozzle: hardened steel ≥ 0.4 mm
• Drying: 90–120 °C for 4 hours
• Optional: heated chamber for best possible results

With these parameters, CarbonX HTN+CF delivers outstanding surface quality and dimensional stability .

Made in the USA

Manufactured in 3DXTech's state-of-the-art facility in Grand Rapids, Michigan, CarbonX HTN+CF guarantees consistent quality and industrial performance for your most demanding 3D printing projects.

Order 3DXTech CarbonX HTN+CF now and print industrial-quality components with maximum strength, precision, and heat resistance.