PPA-GF (Glass Fiber Reinforced PPA) is a high-performance engineering composite material made by reinforcing PPA (Polyphthalamide, also known as High-Temperature Nylon) with glass fibers. It combines the excellent heat resistance, mechanical strength, and chemical resistance of PPA while significantly enhancing rigidity, dimensional stability, and load-bearing capability. The material features low warpage, excellent fatigue resistance, and long-term thermal stability, making it ideal for applications in automotive components, industrial equipment, electrical and electronic products, and high-performance 3D printing.
PPA-CF (Carbon Fiber Reinforced PPA) is a high-performance engineering composite material made by reinforcing PPA (Polyphthalamide, also known as High-Temperature Nylon) with carbon fibers. It combines the excellent heat resistance, mechanical strength, and chemical resistance of PPA with the added benefits of carbon fiber reinforcement, including high rigidity, low shrinkage, and exceptional dimensional stability. The material maintains reliable performance under high temperatures and demanding operating conditions, making it widely used in industrial structural components, automotive parts, electrical and electronic applications, and high-end 3D printing.
PP-CF (Carbon Fiber Reinforced PP) is a lightweight engineering composite material made by reinforcing PP (Polypropylene) with carbon fibers. It combines the low density, excellent chemical resistance, and toughness of PP with enhanced strength, stiffness, and dimensional stability provided by carbon fiber reinforcement. The material features low weight, excellent fatigue resistance, low moisture absorption, and reliable structural performance, making it widely used in automotive components, industrial structural parts, functional prototypes, and high-performance 3D printing applications.
ASA-CF (Carbon Fiber Reinforced ASA) is a high-performance engineering composite material made by reinforcing ASA (Acrylonitrile Styrene Acrylate) with carbon fibers. It combines the excellent weather resistance and UV resistance of ASA with the enhanced strength, stiffness, and dimensional stability provided by carbon fiber reinforcement. The material features low shrinkage, excellent aging resistance, and stable structural performance, making it suitable for long-term outdoor use. It is widely applied in outdoor equipment, automotive components, industrial structural parts, and high-performance 3D printing applications.
ABS-CF (Carbon Fiber Reinforced ABS) is a high-performance engineering composite material made by reinforcing ABS (Acrylonitrile Butadiene Styrene) with carbon fibers. It combines the excellent processability of ABS with the enhanced strength, stiffness, and dimensional stability provided by carbon fiber reinforcement. The material features low shrinkage, excellent warp resistance, and an attractive surface finish, making it an ideal choice for improving the performance of structural components. It is widely used in industrial structural parts, jigs and fixtures, equipment enclosures, and high-performance 3D printing applications.
ABS-GF (Glass Fiber Reinforced ABS) is an engineering composite material made by reinforcing ABS (Acrylonitrile Butadiene Styrene) with glass fibers. It combines the excellent processability of ABS with the enhanced strength, stiffness, and dimensional stability provided by glass fiber reinforcement. The material offers good impact resistance, low shrinkage, and excellent structural support capabilities, making it suitable for applications that require high dimensional accuracy and mechanical performance. It is widely used in industrial structural parts, equipment enclosures, and functional 3D printing applications.
PA6-CF (Carbon Fiber Reinforced PA6) is a high-performance engineering composite material made by reinforcing PA6 (Nylon 6) with carbon fibers. It combines the excellent toughness and wear resistance of PA6 with the enhanced strength, stiffness, and dimensional stability provided by carbon fiber reinforcement. The material features low shrinkage, good heat resistance, and lightweight characteristics, making it well suited for demanding engineering applications. It is widely used in industrial structural components, jigs and fixtures, mechanical parts, and high-performance 3D printing.
PETG-GF (Glass Fiber Reinforced PETG) is a high-performance composite material made by reinforcing PETG (Polyethylene Terephthalate Glycol) with glass fibers. It combines the excellent printability and stability of PETG with the enhanced strength, stiffness, and dimensional stability provided by glass fiber reinforcement. The material features low shrinkage, good heat resistance, and excellent structural support capabilities, making it ideal for functional prototypes, industrial structural parts, jigs and fixtures, and high-performance 3D printing applications.
PETG-CF (Carbon Fiber Reinforced PETG) is a high-performance composite material made by reinforcing PETG (Polyethylene Terephthalate Glycol) with carbon fibers. It combines the excellent printability and stability of PETG with the enhanced stiffness, low shrinkage, and superior dimensional stability provided by carbon fiber reinforcement. The material offers excellent mechanical properties, an attractive surface finish, and strong structural support capabilities, making it ideal for functional prototypes, industrial structural parts, jigs and fixtures, and industrial-grade 3D printing applications.
PLA Gradient (PLA Gradient / PLA Dual Color) is a decorative 3D printing filament produced through a multi-color co-extrusion process, allowing smooth and natural color transitions throughout the material. It retains the easy printability, low shrinkage, and stable printing performance of PLA while offering rich color layers and eye-catching gradient effects. The filament creates unique visual appearances without the need for post-processing or painting, making it ideal for artistic decorations, cultural and creative products, display models, and various creative design applications.
POEK (Polyaryletherketone) is a family of high-performance specialty engineering thermoplastics known for their exceptional heat resistance, mechanical strength, chemical resistance, and dimensional stability. These materials are capable of maintaining reliable performance under demanding operating conditions and elevated temperatures while also offering excellent wear resistance and lightweight characteristics. Due to their outstanding engineering properties, POEK materials are widely used in aerospace, automotive, electrical and electronics, medical, and high-end industrial 3D printing applications.
PEEK (Polyether Ether Ketone) is a high-performance specialty engineering thermoplastic known for its exceptional heat resistance, mechanical strength, wear resistance, chemical resistance, and dimensional stability. The material is capable of maintaining reliable performance under prolonged exposure to high temperatures and demanding operating conditions while offering significant lightweight advantages over metal components. Thanks to its outstanding engineering properties, PEEK is widely used in aerospace, automotive, medical devices, electrical and electronics, and high-end industrial 3D printing applications.
PEEK-CF (Carbon Fiber Reinforced PEEK) is a high-performance composite material made by reinforcing PEEK (Polyether Ether Ketone) with carbon fibers. It combines the exceptional heat resistance, chemical resistance, and mechanical properties of PEEK with the enhanced stiffness, strength, and dimensional stability provided by carbon fiber reinforcement. The material features lightweight characteristics, low shrinkage, excellent fatigue resistance, and long-term durability under demanding operating conditions. It is widely used in aerospace, automotive, advanced industrial equipment, medical applications, and high-performance 3D printing.
PLA --Silk+ is a functional 3D printing filament developed by enhancing both the surface finish and material performance of standard PLA. It delivers a silky-smooth, glossy appearance while maintaining excellent printability and ease of use. Compared with conventional Silk PLA, PLA Silk+ offers improved toughness and reduced brittleness without compromising its premium visual appeal. This allows printed models to achieve both outstanding aesthetics and enhanced durability. The material is widely used for decorative ornaments, cultural and creative products, display models, and a wide range of creative design applications.
PLA Silk Gradient is a premium aesthetic 3D printing filament developed by combining Silk PLA with a multi-color gradient co-extrusion process. It offers a silky-smooth glossy finish, seamless color transitions, and the easy printability of PLA. The material delivers stable printing performance, fine layer details, and rich visual depth, allowing printed models to achieve a high-end appearance without the need for post-processing. It is widely used for artistic decorations, display models, cultural and creative products, and a variety of creative design applications.
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