cPA-GF25
cPA-GF25 - Image 2

cPA-GF25

  • 25% Carbon Fiber Content
  • Skin-Core Structure
  • Superior Mechanical Properties
  • Excellent Z-Axis Interlayer Adhesion
  • Increased Heat Resistance
  • Reduced Warping and Shrinkage
SKU: N/A Categories: ,

Please click the button below to contact us

Product Description

The cPA-GF25 filament excels for 3D printing slender walls with demanding mechanical needs, featuring a 25% carbon fiber blend and a specialized skin-core structure. Its exterior modified resin layer ensures top-notch layer adhesion, while the fiber-rich inner core reinforces strength. This design enhances Z-axis bonding in FDM prints and boosts both the mechanical resilience and heat tolerance of finished parts, thanks to its high carbon fiber content.

Key features of the cPA-GF25 filament for 3D printing include:

25% Carbon Fiber Content: Provides enhanced strength and stiffness to printed parts.

Skin-Core Structure: Offers a unique composition with a modified resin outer layer for improved layer adhesion and a carbon fiber-reinforced core for increased structural integrity.

Superior Mechanical Properties: Results in parts with high mechanical strength, suitable for demanding applications.

Excellent Z-Axis Interlayer Adhesion: Ensures strong bonding between layers, crucial for vertical strength and durability of prints.

Increased Heat Resistance: The addition of carbon fiber improves the heat deflection temperature of printed parts, making them suitable for high-temperature applications.

Reduced Warping and Shrinkage: The filament’s composition and structure minimize the common issues of warping and shrinkage during and after printing.

Optimized for FDM Printing: Specifically designed to perform exceptionally in Fused Deposition Modeling (FDM) printers, ensuring reliability and quality in the printing process.

Applications:
The cPA-GF25 filament, with its unique combination of strength, durability, and heat resistance, is well-suited for a wide array of applications across various industries:
Aerospace: Manufacturing of lightweight, high-strength components such as fixtures, fasteners, and ducting parts that can withstand the demanding conditions of aerospace environments.
Automotive: Production of durable parts including gears, housings, and connectors that require significant mechanical strength and resistance to heat and chemicals.
Engineering and Prototyping: Creation of complex, high-strength prototypes and end-use parts that need to endure rigorous testing and performance criteria.
Industrial Machinery: Fabrication of components for machinery and equipment, such as brackets, mounts, and structural elements that benefit from the filament’s mechanical properties and stability.
Medical Devices: 3D printing of customized surgical tools, orthopedic implants, and prosthetics that demand sterility, biocompatibility, and precise dimensional accuracy.
Robotics: Developing parts for robotic applications, including joints, casings, and structural frames, where lightweight and durable materials are essential for efficiency and performance.
Consumer Products: Crafting high-quality, durable goods ranging from sporting equipment to electronics enclosures, benefiting from the filament’s strength and aesthetic finish.
Education and Research: Supporting academic projects and research applications where innovative material solutions are explored for new engineering and design challenges.
Recommended Printing SettingsPhysical PropertiesMechanical Properties
Drying Setting70℃,4-6hDesity1.15g/cm³Tensile Strength48.48±0.61 Mpa
Nozzle Temperature250~270℃Heat Deflection Temp.87℃Bending Modulus3531.71±75.79 MPa
Bed Temperature100~110℃Melting Temperature250℃Bending Strength78.80±1.26 MPa
Printing Speed30-120mm/sMelt flow Index 4.2g/10minNotched Impact Strength8.91±0.63 KJ/㎡

Related products