INTAMSYS PA6-CF Filament
$164.00
INTAMSYS PA6-CF Filament is a high-performance 3D printing material designed to take your creations to the next level. Made with premium-grade nylon 6 and reinforced with carbon fiber, this filament offers exceptional strength, durability, and dimensional stability. Whether you're an engineer, designer, or hobbyist, this filament is perfect for producing robust and functional prototypes, end-use parts, and complex geometric designs.
The INTAMSYS PA6-CF Filament boasts remarkable mechanical properties, combining the lightweight nature of nylon with the added strength of carbon fiber. With a high tensile strength and excellent heat resistance, your printed objects will withstand demanding applications and environments. The carbon fiber reinforcement provides superior stiffness, reducing warping and enhancing the overall structural integrity of your prints. Additionally, the filament's low moisture absorption ensures consistent and reliable performance throughout the printing process, resulting in precise and accurate parts. Explore the possibilities with INTAMSYS PA6-CF Filament and unlock a new level of strength and reliability in your 3D printing projects.
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Features
Exceptional Strength
Reinforced with carbon fiber, this filament offers outstanding mechanical properties, providing high tensile strength and stiffness to your printed objects.
Durability
With its premium-grade nylon 6 composition, INTAMSYS PA6-CF Filament ensures long-lasting performance and resistance to wear, making it suitable for functional prototypes and end-use parts.
Dimensional Stability
The filament's low moisture absorption helps maintain dimensional accuracy throughout the printing process, ensuring consistent and reliable results.
Heat Resistance
INTAMSYS PA6-CF Filament exhibits excellent heat resistance, enabling your printed objects to withstand elevated temperatures and challenging environments without compromising structural integrity.
Specifications
Filament diameter
1.75 mm
Density
1.24 g/cm³
Heat Deflection Temperature
155 °C
Tensile strength
74.8 MPa
Flexural strength
130.5 MPa
Flexural modulus
5224 MPa
Impact strength
12 kJ/m²