Glass-fibre reinforced Nylon is a strong and chemical resistant material, commonly used to print strong and functional parts.
Glass Fiber FDM Nylon, also known as Glass Fiber Reinforced Nylon, is a type of composite filament used in Fused Deposition Modeling (FDM) 3D printing. It is a blend of nylon polymer with added glass fibers, which enhances the material's strength, stiffness, and heat resistance. Glass Fiber FDM Nylon is commonly used in applications that require high mechanical performance and dimensional stability.
Here is some information about Glass Fiber FDM Nylon:
- Material Type: Glass Fiber FDM Nylon (Composite filament)
- Printing Technology: Fused Deposition Modeling (FDM)
- Application: Functional parts, prototypes requiring high strength and stiffness
- Tensile Strength: Increased compared to standard nylon, typically above 60 MPa
- Tensile Modulus: Enhanced stiffness, typically above 3,000 MPa
- Heat Deflection Temperature (HDT): Improved resistance to heat deformation compared to standard nylon
- Glass Fiber Content: Varies depending on the specific filament, often between 15-30% by weight
The addition of glass fibers to the nylon matrix results in improved mechanical properties. Glass Fiber FDM Nylon exhibits higher tensile strength and modulus, making it suitable for parts subjected to significant loads or mechanical stress. The glass fibers also enhance the dimensional stability and heat resistance of the material, allowing it to withstand higher temperatures without deforming.
It's important to note that Glass Fiber FDM Nylon may have different printing requirements compared to standard nylon filaments. It may require specific nozzle sizes and printing settings to ensure proper filament flow and adhesion.
For precise information on the technical specifications and printing guidelines for Glass Fiber FDM Nylon, it is recommended to consult the manufacturer's documentation or data sheets for the specific brand and formulation of the filament being used.