High-end industry
1. The ideal choice for PA6T/66 connector applications, enabling the substitution of plastic for steel.
PA6T/66 high-temperature nylon is specifically engineered for high-temperature, high-humidity environments. It boasts a tensile strength 20% higher than PA6 and a flexural modulus 20% higher than PA66, while also delivering outstanding resistance to gasoline, oils, and coolants. This material can withstand continuous exposure to temperatures as high as 200°C while maintaining excellent dimensional stability, making it widely used in applications such as connectors for high-end industrial products.
2. PPA is a high-temperature-resistant material that adapts to extreme environments and is widely used in LED brackets and connectors.
PPA boasts a melting range of 310–325°C and a heat distortion temperature as high as 280–290°C, with outstanding oil resistance that effectively withstands erosion by fuels, lubricants, and other aggressive media—maintaining stable performance even at elevated temperatures of 150°C. Its superior dimensional stability, low warpage, low water absorption, and excellent weatherability ensure reliable performance under extreme environmental conditions such as high temperature, high humidity, and intense UV radiation, making it ideal for high-end industrial components including LED brackets, connectors, tactile switches, and drone propellers.
3. PA10T balances performance and environmental friendliness, making it suitable for connectors, drone propellers, and plumbing components.
PA10T not only retains the excellent mechanical properties, wear resistance, and organic-solvent resistance of conventional nylon but also offers significantly enhanced heat resistance and dimensional stability. With a melting point as high as 316°C and an extremely low water absorption rate, it ensures stable performance of finished parts across a wide range of service environments. This material exhibits good processability and is suitable for molding techniques such as injection molding and extrusion. Moreover, since its key monomer, decamethylenediamine, is derived from castor oil, PA10T boasts green, renewable, and highly environmentally friendly attributes.
4. High-flow, high-rigidity halogen-free flame-retardant material, suitable for complex thin-wall structural components.
PARA is reinforced with 50% glass fiber and color-matched to signal orange, delivering high stiffness and excellent impact strength while achieving a balanced performance in halogen-free flame-retardant formulations. It exhibits outstanding creep resistance and thermal stability, and its high flowability supports complex designs and thin-wall structures, helping to reduce weight, conserve materials, and shorten molding cycles. At the same time, it imparts a highly glossy surface finish, making it widely used in electronics and electrical appliances, automotive applications, medical devices, drone propellers, and other fields.
5. LCP’s outstanding flowability and thermal stability meet the requirements of precision electronic manufacturing processes.
LCP can withstand assembly processes such as lead-free reflow soldering in SMT, exhibiting outstanding thermal aging performance, exceptional dimensional stability, and excellent chemical resistance. Its superior flow characteristics make it well suited for thin-wall, complex-shaped parts, while also providing flame retardancy and outstanding dielectric properties—making it an ideal material for high-end applications such as connectors, industrial fans, and ACM camera mounts.
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