SLS Glass Fiber Nylon Parameters
Glass Fiber SLS Nylon is a specific type of 3D printing material that combines nylon with glass fibers. Its simple feature is its composition, which includes both nylon and glass fibers. Here's a brief description of the key features of Glass Fiber SLS Nylon:
Nylon with Glass Fibers: Glass Fiber SLS Nylon is a 3D printing material that blends nylon with glass fibers. This combination imparts additional strength and stiffness to the material, making it ideal for applications where increased mechanical properties are required.
In essence, the primary feature of Glass Fiber SLS Nylon is its composition, which includes the reinforcement of nylon with glass fibers, resulting in a material that offers enhanced mechanical performance. This makes it suitable for a wide range of industrial and engineering applications.
| Technology | SLS |
| Material | 30% Glass Fiber+ Nylon |
| Original Color | Grayish Yellow/Gray/Dye Black |
| Thermal Deformation | 120-150°C |
| Hardness | 85D |
| Surface Situation | Rough Granular |
| Printing Platform Size | 600*360*360mm |
| Flexural modulus | 2200-2400 Mpa (ASTM D790) |
| Flexural strength | 55-60 Mpa (ASTM D790) |
| Tensile modulus | 2500-2800 MPa (ASTM D638) |
| Tensile strength | 35-38 MPa (ASTM D638) |
| Elongation at break | 3-5 % (ASTM D638) |
| Impact strength notched Izod | 35-38 j/m (ASTM D256) |
| Tolerance | The local accuracy of the product is between 0.25-0.35mm~3.5 ‰, while overall accuracy is hard to control |
| Post Process | Assembly, Inset copper nuts, Tap thread, Physical polishing, vapor smoothing, Painting, Electroplating, Silkscreen, Water transfer printing, Coating |
| Wall thickness required | 1 mm above, big parts according to 3D drawings |
The advantages of SLS Glass-Filled Nylon are:
1.Enhanced Strength and Stiffness: Glass-filled nylon combines the strength and stiffness of nylon with the reinforcing properties of glass fibers, resulting in a material with improved mechanical properties, making it suitable for structurally demanding applications.
2.Excellent Impact Resistance: The addition of glass fibers enhances the impact resistance of nylon, providing durability and toughness to withstand various forces and sudden impacts.
3.Lightweight: Despite its enhanced strength, glass-filled nylon remains lightweight, making it an excellent choice for applications where reducing weight is important without compromising on mechanical performance.
4.Chemical Resistance: Glass-filled nylon is resistant to various chemicals, oils, and solvents, allowing for use in environments where exposure to different substances is a concern.
5.Dimensional Stability: The addition of glass fibers helps reduce the tendency of nylon to warp or deform under high temperatures or loads, ensuring better dimensional stability over time.
6.Good Heat Resistance: Glass-filled nylon exhibits improved heat resistance compared to standard nylon, allowing for use in applications where exposure to elevated temperatures is expected.
7.Low Thermal Expansion: The addition of glass fibers reduces thermal expansion, providing more predictable and stable dimensions across varying temperature conditions.
8.Reduced Wear and Abrasion: The glass fibers enhance the wear resistance of the material, extending its lifespan and making it suitable for applications subject to friction and abrasion.
The disadvantages of SLS Glass-Filled Nylon are:
1.Cost: Glass-filled nylon can be more expensive compared to standard nylon or other 3D printing materials due to the cost of incorporating glass fibers into the material.
2.Surface Finish: SLS Glass-Filled Nylon may have a rougher surface finish compared to non-filled nylon, requiring additional post-processing for a smoother surface if needed.
3.Increased Friction During Processing: The presence of glass fibers can increase friction during the printing process, potentially affecting print quality and necessitating modifications to printing parameters.
4.Material Sensitivity: Glass-filled nylon is more sensitive to changes in processing conditions, such as temperature and humidity, which can affect print quality and mechanical properties.