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Excellent Insulation Performance: Plastic screws are non-conductive and do not generate interference such as eddy currents under electric current or other electrical signals, boasting strong anti-interference capabilities. They are suitable for industries with high requirements for insulation and anti-interference, such as communications, electronics, and medical devices.
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Strong Corrosion Resistance: They exhibit good resistance to most chemical substances. In environments with strong acids, alkalis, or other corrosive conditions—such as electroplating and chemical industries—plastic screws made of materials like PVDF can maintain stable performance, thereby extending the service life of equipment.
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Lightweight: Significantly lighter than metal screws, plastic screws are ideal for weight-sensitive scenarios. For example, in automobile manufacturing, using plastic screws helps reduce the overall vehicle weight, improve fuel efficiency, and lower exhaust emissions.
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Cost-Effective: Although their unit price may be higher than that of metal screws, plastic screws feature simple molding and processing during mass production, which can significantly reduce overall costs.
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Ease of Processing: They can be easily manufactured into various shapes and sizes to meet different design requirements. With high production efficiency, complex shapes or special-specification screws can be produced quickly.
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Non-Magnetic: In equipment or environments sensitive to magnetism, such as medical devices and electronic instruments, plastic screws do not generate magnetic field interference.
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Aesthetic and Practical: Their appearance can be customized by adding pigments, allowing better coordination with objects of different materials and colors to enhance overall aesthetics. Additionally, they never rust, making them suitable for fields like office equipment where appearance and rust resistance are required.
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Good Self-Lubrication: No lubricants are needed during installation and disassembly. Their low friction saves time and effort while reducing wear on connected components.
