KINGROON PLA Carbon Fiber Basic 3D Printer Filament
The picture is for reference only. Please adhere to the original products in case of any mistakes.some rolls are plastic while other are cardboard at random and it cant be chosen
KINGROON PLA Carbon Fiber Basic 3D Printer Filament
High Stiffness & Strength:
KINGROON Carbon Fiber PLA is reinforced with premium carbon fibers, providing exceptional stiffness and strength. Compared to standard PLA, it resists deformation under impact, making it ideal for functional and structural 3D prints.
Tangle-Free & Neatly Wound:
Each spool is fully mechanically wound and manually inspected to ensure neat, tangle-free filament. This reduces the risk of snaps and breakages during printing, enabling smooth, reliable extrusion.
Precision & Consistency:
Advanced CCD diameter measurement and adaptive control systems maintain a 1.75 mm filament diameter with tight tolerances, delivering consistent and precise printing results every time.
Clog-Free & Bubble-Free:
Fully dried and high-quality formulation ensures smooth extrusion with no clogging or bubbling. KINGROON Carbon Fiber PLA is easy to use and produces strong, durable prints with excellent layer adhesion.
Carbon Reinforced
Superior stiffness and strength with carbon fiber
Matte Finish
High-quality technical matte surface look
Light & Rigid
Perfect for strong, lightweight components
Pro Setup
Use a hardened steel nozzle for best results
Enhanced Rigidity for Structural Parts
Offers superior stiffness and strength over standard PLA for brackets and tools.
Lightweight and Functional
Achieves a great strength-to-weight ratio for drones, robotics, and weight-critical projects.
High Accuracy and Quality
Dimensional accuracy of +/- 0.03mm. Rigorous quality control ensures consistent filament dimensions, keeping your 3D printing tangle-free.
A Sleek, Technical Matte Finish
Provides a professional, non-reflective surface that hides layer lines.
3D printing material properties
Fully understand the printing settings, physical properties, and mechanical performance of the materials to optimize your 3D printing experience.
| Nozzle Temp(℃) | 190-220 |
|---|---|
| Bed Temp(℃) | 50-70 |
| Fan | 100% |
| Length | (1.75mm) 330-335m |
| Tensile strength | ≥ 30MPa |
|---|---|
| Elongation at break | 0.062 |
| Bending strength | 36MPa |
| Flexural modulus | 2850MPa |
| Tensile strength | ≥ 34MPa |
|---|---|
| Elongation at break | 6.8 |
| Bending strength | 0% |
| Flexural modulus | 0 |
| Nozzle Temp(℃) | 190-220 |
|---|---|
| Bed Temp(℃) | 50-70 |
| Fan | 100% |
| Length | (1.75mm) 330-335m |
| Tensile strength | ≥ 30MPa |
|---|---|
| Elongation at break | 0.062 |
| Bending strength | 36MPa |
| Flexural modulus | 2850MPa |
| Tensile strength | ≥ 34MPa |
|---|---|
| Elongation at break | 6.8 |
| Bending strength | 0% |
| Flexural modulus | 0 |
Printing Tips
Dry Before Use
Dry before use to ensure the best print quality and consistent finish. Drying conditions: In a blast drying oven: 50°C for 8 hours; In an AMS 2 Pro and AMS HT: 55°C, 8 hours; On an X1 printer's heatbed: 60°C to 70°C for 12 hours. Store in a dry environment after use.
Filament drying instructions on WIKI →Using Refill Filament
The refill filament needs to be used with a spool. For detailed instructions on how to swap in the new filament using the Bambu Reusable Spool, please refer to the guide on WIKI.
Spool refill guide on WIKI →