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This material is widely used in the manufacturing of mechanical parts in industrial production, including over 200 types of products such as bearings, gears, seals, oil pipelines and automotive parts. During processing, strict drying treatment is required (16 hours of 80℃ hot air or 8 hours of 105℃ vacuum). The injection molding temperature is 230-280℃, and the mold temperature is 80-90℃. The mechanical properties can be enhanced by adding glass fiber or synthetic rubber, reducing the shrinkage rate from 1% to 1.5% to 0.3%, while improving dimensional stability.
By adding glass fiber reinforcing materials, the performance of PA6 can be significantly improved. This modified material is called PA6 fiber addition. The main feature of PA6 fiber addition is that a certain proportion of glass fiber is added inside as reinforcing material. Under normal circumstances, the addition amount of glass fiber is between 20% and 50%, and the specific proportion depends on the product's usage environment and performance requirements. After adding glass fiber, the tensile strength, flexural modulus and impact strength of PA6 will all be significantly enhanced. At the same time, it can also well improve the heat distortion temperature, enabling it to maintain stable performance at higher temperatures.
The advantages of to PA6 GF30 :
1. The mechanical properties, dimensional stability, heat resistance and aging resistance are significantly improved. The fatigue strength is 2.5 times that of the unreinforced one. Glass fiber is a high-temperature resistant material. Therefore, the heat resistance temperature of reinforced plastics has increased significantly compared to before glass fiber was added.
2. Due to the addition of glass fiber, the mutual movement between the polymer chains of plastics is restricted. As a result, the shrinkage rate of reinforced plastics drops significantly, meaning that the shrinkage of the products is much better than before the addition of glass fiber, and the rigidity is also greatly enhanced.
3. After being reinforced with glass fiber, the plastic will not crack under stress. Meanwhile, the impact resistance of the plastic is significantly enhanced. As glass fiber is a high-strength material, it also correspondingly increases the strength of the plastic with glass fiber, such as tensile strength, compressive strength, and bending strength.
Application:
1. Automotive parts: After adding glass fiber to PA6, its strength and heat resistance are significantly enhanced, and it is widely used in the manufacturing of structural components such as engine hoods, fan blades, and door handles.
2. Electronic and electrical appliances: Applicable to components such as circuit breakers, connectors, and coil bobbings, it features high rigidity, dimensional stability, and electrical insulation.
3. Industrial machinery: It is used for wear-resistant parts such as gears, bearings, and guide rails, meeting the requirements of high strength, low friction, and fatigue resistance.
4. Household tools: Commonly seen in the shells of power tools, sports equipment, etc., balancing the requirements of lightweight and durability.
This material is widely used in the manufacturing of mechanical parts in industrial production, including over 200 types of products such as bearings, gears, seals, oil pipelines and automotive parts. During processing, strict drying treatment is required (16 hours of 80℃ hot air or 8 hours of 105℃ vacuum). The injection molding temperature is 230-280℃, and the mold temperature is 80-90℃. The mechanical properties can be enhanced by adding glass fiber or synthetic rubber, reducing the shrinkage rate from 1% to 1.5% to 0.3%, while improving dimensional stability.
By adding glass fiber reinforcing materials, the performance of PA6 can be significantly improved. This modified material is called PA6 fiber addition. The main feature of PA6 fiber addition is that a certain proportion of glass fiber is added inside as reinforcing material. Under normal circumstances, the addition amount of glass fiber is between 20% and 50%, and the specific proportion depends on the product's usage environment and performance requirements. After adding glass fiber, the tensile strength, flexural modulus and impact strength of PA6 will all be significantly enhanced. At the same time, it can also well improve the heat distortion temperature, enabling it to maintain stable performance at higher temperatures.
The advantages of to PA6 GF30 :
1. The mechanical properties, dimensional stability, heat resistance and aging resistance are significantly improved. The fatigue strength is 2.5 times that of the unreinforced one. Glass fiber is a high-temperature resistant material. Therefore, the heat resistance temperature of reinforced plastics has increased significantly compared to before glass fiber was added.
2. Due to the addition of glass fiber, the mutual movement between the polymer chains of plastics is restricted. As a result, the shrinkage rate of reinforced plastics drops significantly, meaning that the shrinkage of the products is much better than before the addition of glass fiber, and the rigidity is also greatly enhanced.
3. After being reinforced with glass fiber, the plastic will not crack under stress. Meanwhile, the impact resistance of the plastic is significantly enhanced. As glass fiber is a high-strength material, it also correspondingly increases the strength of the plastic with glass fiber, such as tensile strength, compressive strength, and bending strength.
Application:
1. Automotive parts: After adding glass fiber to PA6, its strength and heat resistance are significantly enhanced, and it is widely used in the manufacturing of structural components such as engine hoods, fan blades, and door handles.
2. Electronic and electrical appliances: Applicable to components such as circuit breakers, connectors, and coil bobbings, it features high rigidity, dimensional stability, and electrical insulation.
3. Industrial machinery: It is used for wear-resistant parts such as gears, bearings, and guide rails, meeting the requirements of high strength, low friction, and fatigue resistance.
4. Household tools: Commonly seen in the shells of power tools, sports equipment, etc., balancing the requirements of lightweight and durability.
