ABS CF Filament

ABS CF filament combines ABS durability with carbon fiber strength for heat-resistant, high-stress applications.

Siraya's carbon fiber reinforced ABS filament delivers rigid engineering performance for FDM printers with fewer nozzle changes and print failures.

Our high strength ABS composite filament suits aerospace, automotive, industrial tooling, robotics, and functional prototypes. Features consistent diameter, superior layer bonding, and 101°C heat resistance. This lightweight carbon fiber ABS outperforms standard materials for drone frames and load-bearing parts.

Available in core-concentrated fiber (smoother surfaces) or chopped fiber (maximum strength). Requires hardened steel nozzles. Minimal warping, excellent dimensional stability.

Strength That Handles Real Stress

ABS carbon fiber 3D printing material outperforms standard filaments when parts need to stay rigid under load or heat. Carbon fiber reinforcement adds structural integrity without making parts heavy or brittle.

• Tensile strength reaches up to 45 MPa in the XY axis for load-bearing applications
• Core-concentrated carbon fiber options improve Z-axis strength and layer adhesion
• Heat deflection temperatures up to 98°C mean parts won't soften in hot environments
• Chopped fiber formulations deliver true structural reinforcement for functional prototypes
• Lightweight durability makes this ideal for drones, RC aircraft, and automotive components

Built for High-Temperature Applications

Glass transition temperatures above 100°C let you create parts that perform in demanding conditions. Industrial tooling, jigs, and fixtures stay stable under heat and chemical exposure where standard plastics fail.

Prints Clean with Less Maintenance

Carbon fiber filaments can clog nozzles or leave rough surfaces if the fiber distribution isn't controlled. These formulations reduce direct contact between fibers and nozzles while maintaining surface quality.

• Core structure designs minimize nozzle wear and extend component life
• Reduced fiber exposure on surfaces lowers VOC emissions and skin irritation risk
• Print speeds up to 200 mm/s maintain consistent quality without detail loss
• Tight diameter tolerance ensures steady flow and fewer jams
• Compatible with quick-remove support materials for clean finishes on complex models

Works with Hardened Steel Nozzles

Standard brass nozzles wear out fast with abrasive carbon fiber. Use hardened steel, rubidium, or tungsten carbide nozzles with 0.4mm or larger openings for best results and longer lifespan.

Made for the Tools You Already Use

This rigid engineering filament for FDM works with most desktop printers that handle ABS temperatures. You don't need specialty equipment, just proper bed adhesion and an enclosure for consistent results.

• Print temperatures between 250-280°C fit standard hotend capabilities
• Heated bed temperatures of 100-110°C work with most FDM printer setups
• PEI sheets or PVP glue provide reliable bed adhesion without special surfaces
• Enclosures maintaining around 50°C minimize warping in cooler environments
• Direct-drive extruders handle the material better than Bowden tube systems

Designed for Precision and Dimensional Stability

Carbon fibers enhance rigidity so parts hold their shape during and after printing. You'll see minimal warping and accurate dimensions on technical parts that need to fit assemblies or mechanical systems.

Proven in Professional and Industrial Use

Engineers and makers use this lightweight carbon fiber ABS for applications where standard materials don't perform. From robotics to medical prototypes, these formulations deliver reliability when results matter.

• Aerospace projects benefit from high strength-to-weight ratios for drones and UAVs
• Automotive parts withstand under-hood heat and vibration without degrading
• Industrial manufacturing relies on durable jigs and fixtures that last through heavy use
• Robotics builders create precision load-bearing components for advanced systems
• Medical professionals prototype custom prosthetics and orthotics for real-world testing

Explore Related Collections From Siraya Tech

• Carbon Fiber Filament — Browse all carbon fiber reinforced options across different base materials for your specific strength needs.
• ABS Filament — Discover standard and enhanced ABS formulations when you need heat resistance without carbon fiber reinforcement.
• Heat Resistant Filament — Find high-temperature materials including nylon and specialty composites for extreme conditions.
• Strong Filament — Compare all high-strength options including PETG-CF and engineering-grade materials for functional parts.

Frequently Asked Questions on ABS CF Filaments

What is included in this ABS CF filament collection?

Carbon fiber reinforced ABS with core-concentrated fibers (smoother surfaces) or chopped fiber (maximum strength). Both offer 90°C+ heat resistance and superior layer adhesion.

How do I choose the right ABS carbon fiber filament?

Core-concentrated: smoother finish, visible parts, high-speed printing. Chopped fiber: maximum strength, load-bearing parts. Both handle 90°C+ and require hardened steel nozzles.

Will ABS CF filament work with my 3D printer?

Works with most FDM printers that handle standard ABS. Requirements: 250-280°C hotend, 100-110°C heated bed, enclosure, hardened steel nozzle. Direct-drive extruders recommended.

How does carbon fiber reinforcement improve print quality?

Increases rigidity and dimensional stability, reducing warping. Improves layer adhesion and Z-axis strength. Higher heat deflection creates injection-molded-level functional prototypes.

Is ABS carbon fiber filament suitable for professional use?

Yes. Used for aerospace components, automotive parts, and industrial tooling. Heat resistance, structural integrity, and chemical resistance ensure reliable long-term performance under repeated stress.