FIL X PLA-GF 10% Glass Fibre Reinforced Filament – 1kg, 1.75mm
Precision, Strength, and Exceptional Value
FIL X PLA-GF 10% is a premium PLA filament reinforced with 10% chopped glass fibres, engineered to deliver high stiffness, dimensional accuracy, and a professional surface finish—without the cost typically associated with composite filaments. Proudly manufactured by FIL X, this material is designed for makers and professionals who demand reliability and performance.
Compared to standard PLA and even many carbon-fibre PLA blends, PLA-GF 10% offers increased rigidity and reduced shrinkage, making it ideal for precision parts where tolerances matter.
Each 1kg spool is produced to consistent quality standards and optimised for dependable, repeatable printing.
Key Features
10% Glass Fibre Reinforcement – Increased stiffness and structural stability
Excellent Dimensional Accuracy – Reduced shrinkage for precise, repeatable results
Professional Surface Finish – Clean, technical appearance straight off the printer
Cost-Effective Composite – Stiffer than PLA-GF at a lower price point
Easy to Print – Maintains the reliability and usability of PLA
Technical Specifications
Material: PLA with 10% chopped glass fibre
Filament Diameter: 1.75mm
Spool Weight: 1kg
Printing Characteristics: Low warp, high stiffness, consistent extrusion
Compatibility: Suitable for most FDM / FFF 3D printers
Nozzle Recommendation: Hardened steel nozzle recommended due to abrasive fibres
Ideal Applications
Tooling and fixtures
Machinery and mechanical components
Drone parts and housings
Automotive prototyping
Precision functional parts requiring stiffness and accuracy
Why Choose FIL X PLA-GF 10%?
If you need a filament that delivers strength, precision, and professional results without the premium pricing of advanced composites, FIL X PLA-GF 10% is an excellent choice. It bridges the gap between ease of PLA printing and the performance demanded by real-world applications.
Note: Product includes filament only. Printed model images are for demonstration purposes.
