Fiberon PETG-rCF08
Fiberon PETG-rCF08
Experience sustainable engineering with Fiberon PETG-rCF08 recycled carbon fiber filament, delivering easy sustainable composite printing with exceptional dimensional stability and eco-friendly performance. This entry-level carbon fiber features 8% recycled content, 3710 MPa Young's modulus, and moisture insensitive reliability for consistent professional results. Engineered for affordable carbon fiber prototyping at 240-270°C without heated chambers, offering superior surface texture and excellent layer adhesion. Trust this sustainable 3D printing material for automotive components, consumer goods, and rapid prototyping applications requiring precision dimensional accuracy and environmental responsibility.
Key Features
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Sustainable Composite Material 8% recycled carbon fiber for eco-friendly manufacturing excellence
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Entry-Level Carbon Performance 3710 MPa modulus affordable professional-grade strength reliability
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Easy Sustainable Printing 240-270°C no heated chamber moisture-insensitive operation
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Dimensional Stable Engineering minimal warpage exceptional accuracy for precision prototyping
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Recycled Content Excellence wind turbine blade recycled fibers certified sustainability guaranteed
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Professional Surface Quality enhanced texture superior layer adhesion functional applications proven
Fiberon PETG-rCF08 is a recycled carbon fiber reinforced PETG filament containing 8% carbon fiber sourced from end-of-life wind turbine blades certified to the Global Recycled Standard by TÜV Rheinland. This composite material exhibits a density of 1.30 g/cm³ and maintains excellent dimensional stability with heat deflection temperature of 68.6°C at 0.45 MPa and minimal moisture absorption of 0.55% equilibrium. The recycled carbon fiber reinforcement enhances surface texture and mechanical properties while supporting sustainable manufacturing practices without compromising performance
Fiberon PETG-rCF08 excels in automotive, consumer goods, and prototyping applications where enhanced stiffness and sustainability are priorities. It prints reliably on standard FDM printers with nozzle temperatures of 240-270°C and bed temperatures of 60-70°C, achieving printing speeds up to 300mm/s without requiring heated chambers or enclosures. Both professionals and hobbyists can utilize this entry-level composite for functional prototypes and end-use parts on equipment ranging from desktop to industrial-grade systems.
Users benefit from PETG-rCF08's exceptional printability, low warping tendencies, and cost-effective high-performance that delivers composite material strength at accessible pricing. The material offers superior stiffness with Young's modulus of 3710 MPa in X-Y direction and excellent layer adhesion with 41.1 MPa tensile strength in Z-direction. However, the abrasive carbon fiber content requires hardened steel or ruby nozzles to prevent wear, and drying at 65°C for 3 hours before printing ensures optimal performance and surface quality.
