Medical equipment
1. PA6T/66 is specifically designed for high-temperature, high-humidity environments and is primarily used in connector components for medical devices, making it the material of choice for applications that require long-term resistance to high temperatures and chemical corrosion.
As a high-performance, high-temperature nylon series, PA6T/66 delivers outstanding performance in demanding environments. Under high-temperature and high-humidity conditions, its tensile strength is 20% higher than that of PA6, and its flexural modulus exceeds that of PA66 by 20%, while also exhibiting superior resistance to gasoline, oils, and coolants. This material can withstand continuous exposure to 200°C and maintains excellent dimensional stability even after prolonged thermal cycling, thereby effectively ensuring the long-term reliability and assembly accuracy of precision medical connectors.
2. PPA’s tolerance to extreme temperatures and chemical corrosion; primarily used in medical-device connectors and tactile switches, suitable for harsh outdoor and industrial environments with high UV exposure and high humidity.
PPA sets the benchmark for extreme heat resistance, with a melting point as high as 310–325°C and a heat distortion temperature reaching 280–290°C, ensuring stable performance even at 150°C. It also exhibits outstanding oil resistance, effectively resisting degradation from fuels, lubricants, and other solvents, while its extremely low water absorption and warp resistance provide exceptional dimensional stability. Moreover, its superior weatherability enables long-term reliable operation under harsh environmental conditions—high temperature, high humidity, and intense UV radiation—making it the ideal choice for outdoor applications and specialized medical equipment.
3. PA10T combines the toughness of traditional nylon with innovative eco-friendly principles, primarily targeting medical connectors, tactile switches, and precision structural frameworks, thereby balancing performance with sustainability requirements.
PA10T is a state-of-the-art, environmentally friendly high-performance material that seamlessly inherits the outstanding mechanical properties, excellent wear resistance, and superior resistance to organic solvents of conventional nylon—while achieving dual breakthroughs through technological innovation. With a melting point as high as 316°C, its heat resistance is significantly enhanced, while its extremely low water absorption ensures exceptional dimensional stability. In terms of processing, it is compatible with a wide range of methods, including injection molding and extrusion, offering unparalleled flexibility. Notably, its monomer decanediamine is derived from castor oil, a green and renewable resource, thereby endowing the material with greater environmental benefits and strong sustainability attributes.
4. PARA focuses on medical-grade safety and aesthetic requirements, specializing in connectors for medical devices and high-end medical accessories that combine flame-retardant safety with a refined appearance.
PARA material is specially formulated with halogen-free flame retardants (HFFR) and reinforced with 50% glass fiber, achieving precise color matching to signal orange for outstanding performance in both safety and visual appeal. Its internal structure strikes an optimal balance between high stiffness and high impact strength, while also exhibiting excellent creep resistance and thermal stability. In terms of processing performance, PARA boasts high flowability, enabling the easy realization of complex geometries and thin-wall designs, thereby effectively reducing material waste and lowering component weight. Combined with high injection speeds and short cycle times, this significantly boosts production efficiency. The finished parts feature a high-gloss, premium surface finish that perfectly embodies the precision aesthetics required for medical devices.
5. LCP specializes in high-frequency signal transmission and precision assembly, with a focus on connectors for medical devices and precision fan components, meeting the stringent requirements of high-end electronics manufacturing.
LCP liquid crystal polymers are specifically engineered for precision electronics manufacturing, offering seamless compatibility with SMT surface-mount technology and passing lead-free reflow soldering without issue. They exhibit outstanding thermal aging performance, ensuring stable performance over long-term use, while their exceptional flowability enables easy molding of complex geometries and thin-wall structures. In terms of core properties, LCP boasts excellent dimensional stability, superior chemical resistance, and inherent flame retardancy. Most notably, its exceptional dielectric performance makes it an indispensable key material in high-frequency signal transmission applications, widely used in medical-device connectors and precision fans where signal integrity is critical.
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