Custom OEM Carbon Fiber 3D Printing Filament Manufacturer

Leading the Future of High-Performance Additive Manufacturing with Advanced Aerospace-Grade Composites

Guangzhou RAXis Fiber Co., Ltd.

Guangzhou RAXis Fiber Co., Ltd. is a professional manufacturer specializing in carbon fiber sheets, tubes, and custom composite products, delivering lightweight and high-strength solutions for global industries. Based in Guangzhou, China, we integrate research, development, production, and sales to provide advanced carbon fiber materials tailored to diverse application needs.

Our product portfolio includes carbon fiber sheets, tubes, plates, CNC-machined parts, and customized composite components widely used in aerospace, automotive, drones, sports equipment, and industrial structures. With a focus on precision engineering and material innovation, we ensure each product offers excellent strength-to-weight ratio, corrosion resistance, and long-term durability.

RAXis Factory Production
Carbon Fiber Quality Control

Equipped with modern production facilities and experienced technical teams, RAXis Fiber maintains strict quality control throughout the entire manufacturing process, from raw material selection to final inspection. We also provide flexible OEM and ODM services, supporting clients with custom designs, rapid prototyping, and scalable production.

Driven by continuous innovation and customer-oriented service, we are committed to delivering reliable products, competitive pricing, and efficient lead times. Guangzhou RAXis Fiber Co., Ltd. strives to be a trusted partner in providing lightweight composite solutions that enhance performance and efficiency across multiple industries worldwide.

Technical Roadmap & Future Outlook

The Evolution of Carbon Fiber 3D Printing Filaments

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Phase 1: Chopped Fiber Reinforcement

Short carbon fibers (100-200μm) dispersed in thermoplastic matrices like PA12, PETG, and PLA. This increases the Young's modulus and reduces warping, making high-performance parts accessible to FDM users.

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Phase 2: High-Temp Engineering Thermoplastics

The integration of CF with PEEK, PEI (Ultem), and PPS. These materials offer aerospace-grade thermal resistance (>200°C) and chemical inertness, replacing aluminum and titanium in critical applications.

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Phase 3: Continuous Fiber In-situ Integration

The "Holy Grail" of 3D printing—combining a continuous strand of carbon fiber with the filament during the extrusion process. This yields parts with strength comparable to traditional 6061-T6 aluminum.

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Future: Bio-Based & Recycled Composites

RAXis is currently researching recycled carbon fiber (rCF) sourced from aerospace scrap to create a closed-loop supply chain, significantly reducing the carbon footprint of 3D printing filaments.

Macro Industry Solutions

Solving Complex Engineering Challenges Across Sectors

Aerospace & UAVs

Our carbon fiber reinforced filaments are the primary choice for drone manufacturers requiring extreme stiffness-to-weight ratios. From long-range FPV frames to precision-machined propeller hubs, we provide materials that withstand high G-forces and vibrations.

Medical & Prosthetics

PEEK-CF filaments offer biocompatibility and X-ray translucency, making them ideal for surgical guides and custom prosthetic limb components that require personalized ergonomics and high durability.

Automotive Prototyping

Accelerate your R&D with functional prototypes that can survive under-the-hood temperatures. Our CF-PETG and CF-Nylon provide the dimensional stability needed for intake manifolds and aerodynamic housings.

35% Weight Reduction
250°C Heat Resistance
10k+ Global Projects
ISO 9001 Certified

China Factory 4.0: Supply Chain Resilience

How Guangzhou RAXis Ensures Global Competitiveness

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Automated Extrusion Lines

Our factory utilizes AI-driven laser diameter monitoring systems ensuring a tolerance of ±0.02mm, preventing extruder jams and ensuring consistent surface finish.

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Moisture-Controlled Logistics

Carbon fiber filaments are hygroscopic. We use vacuum-sealed, nitrogen-flushed packaging with high-grade desiccant to ensure "plug-and-play" reliability upon arrival.

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Global Export Infrastructure

Located in the heart of the Pearl River Delta, we leverage world-class logistics from Guangzhou and Shenzhen to provide rapid lead times of 7-15 days for bulk OEM orders.

Localized Support & Compliance

Trust, Reliability, and Global Standards

In the world of high-performance composites, Reliability (E-E-A-T) is paramount. Guangzhou RAXis Fiber Co., Ltd. ensures all materials meet stringent international standards:

  • REACH & RoHS Compliance: Safe for use in consumer electronics and medical devices.
  • UL94-V0 Options: Flame retardant carbon fiber filaments for aerospace and rail safety.
  • Material Data Sheets (TDS/MSDS): Comprehensive technical documentation provided for every batch, including tensile strength, Izod impact, and HDT data.
  • Localized Technical Support: Our engineers provide 24/7 consulting for nozzle selection, bed adhesion settings, and drying protocols.

OEM/ODM Customization

Need a specific fiber loading percentage (e.g., 20% CF vs 30% CF)? Or a custom color masterbatch integrated into the composite? RAXis provides rapid prototyping for custom formulations to meet your exact mechanical specifications.

Knowledge Base & FAQ

Expert Insights into Carbon Fiber Additive Manufacturing

What is the benefit of carbon fiber in 3D printing filament?

Carbon fiber increases the stiffness (modulus) and dimensional stability of the part. It significantly reduces the coefficient of thermal expansion, meaning parts are less likely to warp during printing compared to pure polymers.

Do I need a hardened nozzle to print RAXis CF filaments?

Yes. Carbon fiber is abrasive. We recommend using hardened steel, tungsten carbide, or ruby-tipped nozzles. Standard brass nozzles will wear out within a few hundred grams of printing.

Can you provide custom fiber lengths for OEM orders?

Absolutely. While standard filaments use milled fibers, we can optimize fiber aspect ratios for specific mechanical requirements in large-scale industrial orders.

How does RAXis ensure batch-to-batch consistency?

We use online melt flow index (MFI) testing and constant laser micrometer checks during extrusion. Every batch is sample-printed and tested for interlayer adhesion (Z-axis strength).