Aerospace
1. PA6T/66: Core Adaptation Material for Aerospace Connector Products
As a representative high-temperature nylon material, it is specifically designed for aerospace connector components and can maintain stable performance under extreme high-temperature and high-humidity conditions. Its tensile strength is 20% higher than that of PA6, its flexural modulus is 20% greater than that of PA66, and its resistance to corrosion by gasoline, lubricants, and coolants surpasses that of PA66. It can withstand continuous exposure to 200°C while maintaining precise dimensional stability, thereby providing reliable performance support for aerospace connectors.
2. PPA: Materials specialized for aerospace connectors, drone propellers, and tactile switches
Focusing on the core component requirements across multiple aerospace and aviation applications, this material offers broad compatibility with connectors, drone propellers, and tactile switch components. With a melting range of 310–325°C and a heat deflection temperature as high as 280–290°C, it exhibits outstanding high-temperature performance; even at 150°C, it effectively resists corrosion from various oils, including fuel and lubricating oil, demonstrating exceptional oil resistance. In addition, it boasts superior dimensional stability, low warpage, and extremely low water absorption, coupled with excellent weather resistance, enabling long-term stable operation under extreme climatic conditions such as high temperature, high humidity, and intense UV radiation.
3. PA10T: A Versatile, High-Performance, Eco-Friendly Material for Diverse Aerospace Applications
Covering diverse applications such as aerospace connectors, drone propellers, tactile switches, plumbing components, and structural frameworks, this material is a versatile solution that balances performance with environmental sustainability. Building on the outstanding mechanical properties, wear resistance, and resistance to organic solvents of conventional nylon, its melting point has been raised to 316°C, significantly enhancing its thermal stability. Its ultra-low water absorption ensures exceptional dimensional stability, while maintaining excellent mechanical properties and processability, making it suitable for a wide range of manufacturing methods, including injection molding and extrusion. Moreover, thanks to the green attributes of its monomer, decanediamine derived from rapeseed oil, this material is an environmentally friendly, high-end product synthesized from renewable resources.
4. PARA: Halogen-Free Flame-Retardant Reinforced Material for Aerospace Functional Components
This material is tailored for aerospace connectors, drone propellers, tactile switches, and plumbing components, with signal orange as the standard color. It features a halogen-free flame-retardant (HFFR) formulation reinforced with 50% glass fiber. Within a halogen-free flame-retardant system, it strikes an optimal balance between high stiffness and impact strength, while also delivering outstanding creep resistance and thermal stability. Its high flowability supports complex geometries and thin-wall designs, enabling material savings and weight reduction of assemblies. It is compatible with high injection speeds and short-cycle processing, and its surface exhibits a resin-rich, high-gloss finish that seamlessly integrates performance with aesthetic appeal.
5. LCP: Materials for Adapting Precision Electronic and Structural Components in Aerospace
Specifically designed for aerospace connectors, industrial fans, and ACM camera mounts, this material is capable of withstanding lead-free reflow soldering in SMT assembly processes. It exhibits outstanding thermal aging performance and excellent flow characteristics, making it well suited for precision machining of thin-walled, complex-shaped components. With exceptional dimensional stability, coupled with superior chemical resistance, flame retardancy, and dielectric properties, it provides comprehensive performance assurance for precision electronic components and structural parts in the aerospace industry.
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