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Modified nylon PA6 boasts excellent aesthetics and processability, outstanding resistance to thermal aging, self-lubricating properties, superior mechanical performance, and exceptional high-temperature and corrosion resistance. With stable performance and the ability to offer customized solutions tailored to customer requirements, it fully meets the production needs of a wide range of applications.

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Polyphenylene Sulfide (PPS) is a novel high-performance engineering plastic—a polymer whose main chain contains phenylthio groups. Due to its structure, in which benzene rings and sulfur atoms are alternately linked, the molecular chains exhibit significant rigidity and regularity, making PPS a crystalline polymer. It is renowned for its outstanding heat resistance, dimensional stability, mechanical strength, and excellent chemical corrosion resistance.

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Polyphenylene Sulfide (PPS) is a novel high-performance engineering plastic—a polymer whose main chain contains phenylthio groups. Due to its structure, in which benzene rings and sulfur atoms are alternately linked, the molecular chains exhibit exceptional rigidity and regularity, making PPS a crystalline polymer. It is renowned for its outstanding heat resistance, dimensional stability, mechanical strength, and excellent chemical corrosion resistance.

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Polyphenylene Sulfide (PPS) is a novel high-performance engineering plastic—a polymer whose main chain contains phenylthio groups. Due to its structure, in which benzene rings and sulfur atoms are alternately linked, the molecular chains exhibit exceptional rigidity and regularity, making PPS a crystalline polymer. It is renowned for its outstanding heat resistance, dimensional stability, mechanical strength, and excellent chemical corrosion resistance.

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Polyphenylene Sulfide (PPS) is a novel high-performance engineering plastic—a polymer whose main chain contains phenylthio groups. Due to its structure, in which benzene rings and sulfur atoms are alternately linked, the molecular chains exhibit significant rigidity and regularity, making PPS a crystalline polymer. It is renowned for its outstanding heat resistance, dimensional stability, mechanical strength, and excellent chemical corrosion resistance.

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Liquid Crystal Polymer (LCP) is a high-performance engineering plastic that exhibits excellent mechanical properties, heat resistance, chemical resistance, and low moisture absorption. It is well suited for precision components and ranks among the optimal material choices for micro‑motors and high‑frequency signal connectors, and can also be used in robotics.

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Liquid Crystal Polymer (LCP) is a high-performance engineering plastic that exhibits excellent mechanical properties, heat resistance, chemical resistance, and low moisture absorption. It is well suited for precision components and ranks among the optimal material choices for micro‑motors and high‑frequency signal connectors, and can also be used in robotics.

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Polyphenylene Sulfide (PPS) is a new type of high-performance engineering plastic—a polymer with phenyl sulfide groups in its molecular backbone. Due to its structure, in which benzene rings and sulfur atoms are alternately linked, the polymer chain exhibits high rigidity and regularity. Consequently, PPS is a crystalline polymer renowned for its outstanding heat resistance, dimensional stability, mechanical strength, and excellent chemical corrosion resistance.

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Electronic components (such as coils, lamp shades, and brush holders) as well as various other parts requiring strength and resistance to corrosive chemicals (such as automotive heaters, pumps, valves, fuel rails, microwave oven seals, distillation tower packing, and thermostatic faucet components for water heaters, etc.).

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Enhanced PPS material, suitable for electronics and electrical applications (such as ECUs—Electronic Control Units, connectors, etc.), new energy applications (such as storage battery cover plates, lamp holders and shades, brakes, etc.), and medical devices (such as water flow valve bodies, diaphragm pump housings, etc.).

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Electronic components (such as lamp shades and lamp holders), as well as mechanical components (such as pumps and pistons)

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In the automotive industry, LCP is primarily used to manufacture components such as sealing devices, shock absorbers, and stabilizer bars. In the aerospace sector, it finds applications including radar antenna radomes and high-temperature, radiation-resistant housings. Additionally, in the medical field, LCP is employed in artificial joints, dental implants, and medical catheters, among other applications.