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PA66 GF30 V0
XINYITE
PA66 GF30 V0 plastic resin, with its 30% Glass Fiber Reinforced Red Phosphorus Flame Retardant V0
Fire Safety Advantages: The addition of glass fibers enhances the mechanical properties of the PA66 GF30 V0 plastic resin, making it highly durable and resistant to impact. Furthermore, the incorporation of red phosphorus as a flame retardant ensures that the material self-extinguishes when exposed to flames, minimizing the risk of fire propagation. This combination of strength and fire resistance makes PA66 GF30 V0 an ideal choice for various applications.
Applications: PA66 GF30 V0 plastic resin finds extensive use in industries where fire safety is paramount. Some notable applications include electrical and electronic components, automotive parts, and construction materials. In the electrical and electronic sector, this material is commonly used for connectors, switches, and circuit breakers, ensuring reliable performance even in high-temperature environments.
Benefits in Automotive Industry:The automotive industry also benefits from PA66 GF30 V0 plastic resin. Its flame retardancy properties make it suitable for components such as engine covers, cable harnesses, and battery housings. Additionally, the material's high strength and resistance to heat and chemicals contribute to the overall safety and durability of vehicles.
Injection Molding Suggestions:
When molding Red Phosphorus Flame Retardant PA66 GF30, certain considerations must be taken into account to ensure optimal part quality and performance.
Drying: Before processing, the resin should be thoroughly dried to avoid moisture-related defects such as bubbles or poor surface finish. Typically, drying conditions are 80-90°C for 4-6 hours.
Molding Temperature: The recommended barrel temperatures for injection molding are between 270-290°C, with the mold temperature set at 80-120°C. Higher temperatures within this range may be necessary to achieve good flow and proper filling of complex molds.
Injection Pressure: Moderate to high injection pressure is typically required due to the material's viscosity, influenced by the glass fiber content. This ensures proper packing and minimizes voids in the final part.
Screw Speed: A low to moderate screw speed is advisable to minimize shear and prevent degradation of the red phosphorus flame retardant, which can result in reduced flame resistance and mechanical properties.
Cooling Time: Adequate cooling time is essential due to the material's thermal conductivity and the potential for warping or shrinkage. The cooling system in the mold should be well-designed to ensure uniform cooling.
Post-Processing: After molding, parts may require post-processing such as annealing to relieve internal stresses, which can improve dimensional stability and reduce the likelihood of warping or cracking during use.
PACKAGE AND SHIPMENT:
FACTORY PICTURES:
PA66 GF30 V0 plastic resin, with its 30% Glass Fiber Reinforced Red Phosphorus Flame Retardant V0
Fire Safety Advantages: The addition of glass fibers enhances the mechanical properties of the PA66 GF30 V0 plastic resin, making it highly durable and resistant to impact. Furthermore, the incorporation of red phosphorus as a flame retardant ensures that the material self-extinguishes when exposed to flames, minimizing the risk of fire propagation. This combination of strength and fire resistance makes PA66 GF30 V0 an ideal choice for various applications.
Applications: PA66 GF30 V0 plastic resin finds extensive use in industries where fire safety is paramount. Some notable applications include electrical and electronic components, automotive parts, and construction materials. In the electrical and electronic sector, this material is commonly used for connectors, switches, and circuit breakers, ensuring reliable performance even in high-temperature environments.
Benefits in Automotive Industry:The automotive industry also benefits from PA66 GF30 V0 plastic resin. Its flame retardancy properties make it suitable for components such as engine covers, cable harnesses, and battery housings. Additionally, the material's high strength and resistance to heat and chemicals contribute to the overall safety and durability of vehicles.
Injection Molding Suggestions:
When molding Red Phosphorus Flame Retardant PA66 GF30, certain considerations must be taken into account to ensure optimal part quality and performance.
Drying: Before processing, the resin should be thoroughly dried to avoid moisture-related defects such as bubbles or poor surface finish. Typically, drying conditions are 80-90°C for 4-6 hours.
Molding Temperature: The recommended barrel temperatures for injection molding are between 270-290°C, with the mold temperature set at 80-120°C. Higher temperatures within this range may be necessary to achieve good flow and proper filling of complex molds.
Injection Pressure: Moderate to high injection pressure is typically required due to the material's viscosity, influenced by the glass fiber content. This ensures proper packing and minimizes voids in the final part.
Screw Speed: A low to moderate screw speed is advisable to minimize shear and prevent degradation of the red phosphorus flame retardant, which can result in reduced flame resistance and mechanical properties.
Cooling Time: Adequate cooling time is essential due to the material's thermal conductivity and the potential for warping or shrinkage. The cooling system in the mold should be well-designed to ensure uniform cooling.
Post-Processing: After molding, parts may require post-processing such as annealing to relieve internal stresses, which can improve dimensional stability and reduce the likelihood of warping or cracking during use.
PACKAGE AND SHIPMENT:
FACTORY PICTURES:
