High Strength & Durability: Tensile strength reaches 45-55 MPa, approximately 30% higher than standard ABS. It is designed for manufacturing high-load functional prototypes, tooling jigs, and end-use parts, ensuring robust and reliable structures.
Exceptional Stiffness: Flexural modulus is increased by 40-60%, significantly reducing part deformation and deflection under load. This makes it particularly suitable for mechanical components requiring high dimensional stability and precision.
Superior High-Temperature Dimensional Stability: With a Heat Deflection Temperature (HDT) of 105-110°C, it maintains excellent shape stability in elevated temperature environments, making it the ideal choice for engineering applications near heat sources, such as motor housings and engine bay components.
Enhanced Wear Resistance & Surface Hardness: The addition of 10% chopped carbon fiber substantially improves surface hardness and wear resistance, perfect for parts subject to frequent sliding or friction, such as gears, bearings, and sliders.
Optimized 3D Printing Experience & Engineering Suitability: While retaining the good processability of ABS, the incorporation of carbon fiber helps reduce warping and improves dimensional accuracy, enabling more stable and efficient printing of complex engineering parts.
