Product description
Product Name: Glass Fiber Reinforced Engineering Plastic Pellets (GF-EP)
Key Features and Specifications
| Specification | Description |
| Material Type | Engineering Thermoplastic (e.g., PA, PBT, PC, POM, etc.) |
| Reinforcement | Chopped Glass Fiber (Short or Long Fibers) |
| Reinforcement Content | Customizable (e.g., 10% to 50% by weight) |
| Product Form | Uniform Pellets/Granules (Ready for injection molding or extrusion) |
| Key Property Improvement | Significantly Increased Mechanical Strength, Rigidity, and Dimensional Stability |
| Thermal Performance | Enhanced Heat Distortion Temperature (HDT) and improved creep resistance |
| Surface Finish | Excellent moldability with good surface finish (Dependent on fiber length) |
Product Summary
Glass Fiber Reinforced Engineering Plastic Pellets are composite materials formed by blending high-performance engineering thermoplastics with chopped glass fibers. This combination results in a compound that surpasses the capabilities of the neat (unfilled) polymer, offering a significant uplift in mechanical, thermal, and electrical performance.
The glass fibers act as an internal reinforcement, effectively distributing load and preventing crack propagation. This leads to materials with higher tensile strength, flexural modulus (stiffness), and improved resistance to high temperatures, making these pellets the material of choice for demanding structural and functional components.
Primary Applications
Automotive & Transportation:
Structural Components: Used for weight reduction and increased strength in under-the-hood parts (e.g., manifolds, engine covers), brackets, and interior structural elements.
Electrical & Electronics (E&E):
Housings and Connectors: Ideal for parts requiring high strength, flame retardancy, and excellent dielectric properties combined with dimensional stability at elevated operating temperatures.
Industrial & Consumer Goods:
Machinery Parts: Manufacturing gears, bearings, pump housings, and power tool casings that require high wear resistance and structural integrity.
Appliance Components: Used in functional parts of appliances exposed to heat or mechanical stress.
Customization and Ordering
Polymer Matrix Selection: Choose from a variety of base resins (e.g., Nylon 6, PBT, Polycarbonate) to achieve the optimal chemical resistance and base properties.
Fiber Load & Length: Customizable glass fiber content (e.g., 10%, 20%, 30%, 40%) and fiber length (short or long) can be tailored to meet specific strength and impact resistance requirements.
Color & Additives: Available in natural, black, or custom colors, and can be compounded with functional additives such as UV stabilizers, heat stabilizers, and flame retardants.
