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PA66 GF30
XINYITE
30% Glass fiber reinforced nylon PA66 is made of PA66 resin and filled with 30% glass fiber. It is high strength, high toughness, wear resistance and corrosion resistance. Also, the material is dimensionally stable with high heat deflection temperature, good electrical insulation, good surface smoothness, easy molding and other advantages.
High Strength: The addition of glass fiber increases the strength and rigidity of the material, making it suitable for applications where mechanical performance is critical.
Heat Resistance: The presence of glass fiber improves the material's ability to withstand higher temperatures compared to unfilled PA66.
Dimensional Stability: Glass fiber reinforcement also contributes to better dimensional stability, reducing the likelihood of warping or deformation under various conditions.
Chemical Resistance: PA66 is generally resistant to many chemicals, and the addition of glass fiber does not significantly compromise this property.
Applications: PA66 GF30 is commonly used in automotive components, electrical and electronic parts, industrial machinery, and other applications where a combination of strength, heat resistance, and dimensional stability is required.
Injection Molding Suggestions for GF Reinforced PA66
1. Processing Temperature:
Barrel Temperature: Typically, the barrel temperature should be set between 270°C to 300°C (518°F to 572°F) to ensure proper melting and flow of the material.
Mold Temperature: A mold temperature between 80°C to 100°C (176°F to 212°F) is recommended to achieve good surface finish and dimensional stability.
2. Injection Speed:
A moderate to high injection speed is recommended to ensure proper filling of the mold and to prevent fiber breakage. However, too high of an injection speed can cause excessive shear heating.
3. Injection Pressure:
Higher injection pressures may be required due to the increased viscosity of GF reinforced PA66. Typical injection pressures range from 1000 to 1500 bar (14,500 to 21,750 psi).
4. Holding Pressure and Time:
Proper holding pressure and time are crucial to prevent sink marks and ensure good part integrity. Holding pressure should be around 50% to 70% of the injection pressure, and holding time should be optimized based on part thickness.
5. Screw Design:
A screw with a low compression ratio (around 2:1 to 3:1) and a longer feed zone is recommended to accommodate the abrasive nature of glass fibers and to prevent excessive wear.
6. Drying:
GF reinforced PA66 should be dried before processing to remove any moisture content. A drying temperature of 80°C to 100°C (176°F to 212°F) for 2 to 4 hours is typically recommended.
PACKAGE AND SHIPMENT:
FACTORY PICTURES:
30% Glass fiber reinforced nylon PA66 is made of PA66 resin and filled with 30% glass fiber. It is high strength, high toughness, wear resistance and corrosion resistance. Also, the material is dimensionally stable with high heat deflection temperature, good electrical insulation, good surface smoothness, easy molding and other advantages.
High Strength: The addition of glass fiber increases the strength and rigidity of the material, making it suitable for applications where mechanical performance is critical.
Heat Resistance: The presence of glass fiber improves the material's ability to withstand higher temperatures compared to unfilled PA66.
Dimensional Stability: Glass fiber reinforcement also contributes to better dimensional stability, reducing the likelihood of warping or deformation under various conditions.
Chemical Resistance: PA66 is generally resistant to many chemicals, and the addition of glass fiber does not significantly compromise this property.
Applications: PA66 GF30 is commonly used in automotive components, electrical and electronic parts, industrial machinery, and other applications where a combination of strength, heat resistance, and dimensional stability is required.
Injection Molding Suggestions for GF Reinforced PA66
1. Processing Temperature:
Barrel Temperature: Typically, the barrel temperature should be set between 270°C to 300°C (518°F to 572°F) to ensure proper melting and flow of the material.
Mold Temperature: A mold temperature between 80°C to 100°C (176°F to 212°F) is recommended to achieve good surface finish and dimensional stability.
2. Injection Speed:
A moderate to high injection speed is recommended to ensure proper filling of the mold and to prevent fiber breakage. However, too high of an injection speed can cause excessive shear heating.
3. Injection Pressure:
Higher injection pressures may be required due to the increased viscosity of GF reinforced PA66. Typical injection pressures range from 1000 to 1500 bar (14,500 to 21,750 psi).
4. Holding Pressure and Time:
Proper holding pressure and time are crucial to prevent sink marks and ensure good part integrity. Holding pressure should be around 50% to 70% of the injection pressure, and holding time should be optimized based on part thickness.
5. Screw Design:
A screw with a low compression ratio (around 2:1 to 3:1) and a longer feed zone is recommended to accommodate the abrasive nature of glass fibers and to prevent excessive wear.
6. Drying:
GF reinforced PA66 should be dried before processing to remove any moisture content. A drying temperature of 80°C to 100°C (176°F to 212°F) for 2 to 4 hours is typically recommended.
PACKAGE AND SHIPMENT:
FACTORY PICTURES:
