For the reinforced nylon’s mechanical characteristics. The findings demonstrate that as glass fiber content increases, the material’s tensile and bending strengths significantly rise, but the impact strength becomes more complex. By adding a toughening chemical, the material’s hardness is significantly increased. The material’s total mechanical qualities are optimal when it contains 30% to 35% glass fiber and 8% to 12% toughening agent.

1. A material created by reinforcing nylon resin with a certain quantity of glass fiber. It may either be continuously sheared and combined with continuous fiber into a twin-screw extruder, or it can be separated into long glass fiber reinforced nylon (the length of fiber and plastic particles is equal, normally around 10mm). the short glass fiber reinforced nylon that was produced (glass fiber length: 0.2-0.7mm).

2. The primary chain of nylon contains amino groups and is a polyamide. Due to hydrogen bonding, amino groups are polar and attracted to one another. Nylon may therefore be converted into high-strength fibers and is simple to crystallize. Polyamide is a strong, milky-white or horny transparent crystalline resin that is frequently formed into cylinder-shaped pellets. Its molecular weight ranges from 15,000 to 20,000, making it a common ingredient in plastics.

3. Reinforced nylon has significantly enhanced mechanical strength, stiffness, heat resistance, creep resistance, and fatigue resistance compared to pure nylon, whereas elongation, molding shrinkage, moisture absorption, and wear resistance have decreased.

4. The degree of orientation, content, aspect ratio, and bonding strength of the fiber and resin all have a significant role in performance. can be extruded and injection molded. widely used to produce heat-resistant structural plastic components in the automotive, chemical, aerospace, and other industries.

5. The mechanical characteristics, dimensional stability, heat resistance, and aging resistance of PA are greatly enhanced by the addition of 30% glass fiber, and the fatigue strength is 2.5 times that of unreinforced.

6. To enhance the performance of nylon, use reinforcing materials. Glass fiber, asbestos fiber, carbon fiber, titanium metal, and other materials are used as reinforcing materials. Among these, glass fiber is the primary substance used to enhance nylon’s heat resistance, dimensional stability, rigidity, and mechanical properties (tensile strength and bending strength), particularly the mechanical properties, which have significantly improved, transforming nylon into an engineering plastic with excellent performance. Both long fiber reinforced nylon and short fiber reinforced nylon, which are frequently used in gears, bearings, fan and pump blades, bicycle and car industry parts, fishing equipment, and certain precision engineering items, are made of glass fiber reinforced nylon.

It has high dimensional stability and mechanical strength, good wear resistance, heat resistance, oil resistance, chemical resistance, and decreases water absorption and raw material shrinkage.

Series PA66 reinforced nylon

It offers exceptional electrical, wear, heat, and self-extinguishing qualities as well as strong mechanical strength and good dimensional stability. It is widely utilized in pump impellers, textile goods, automobile industry products, and premium-quality precision engineering components.

Enhanced series PA6

It has high dimensional stability and mechanical strength, good wear resistance, heat resistance, oil resistance, chemical resistance, and decreases water absorption and raw material shrinkage.