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Betec Inc.

High-Temperature Material

High-Temperature Material

High-Temperature Nylon (PA10T, PA6T)
Liquid Crystal Polymers (LCP)
Polyphenylene Sulfide (PPS)

In modern industrial applications, there is a growing demand for materials capable of withstanding high-temperature environments. High-temperature materials possess exceptional heat resistance, low moisture absorption, high rigidity, low warpage, dimensional stability, chemical stability, and mechanical performance, making them invaluable across various fields. Nytex offers a range of high-temperature materials tailored to meet these demanding requirements: 

High-Temperature Nylon (PA10T, PA6T): These nylon variants exhibit excellent heat resistance and mechanical strength, making them suitable for applications such as FPC connectors, high-temperature structural components, and medical devices. 

Liquid Crystal Polymers (LCP): LCPs boast outstanding thermal stability and dimensional accuracy, making them ideal for use in lens modules, EV connectors, and fuel conduits where high-temperature performance is crucial. 

Polyphenylene Sulfide (PPS): PPS offers exceptional chemical resistance and thermal stability, making it a preferred choice for applications like battery modules, battery O-rings, and other components requiring reliability in extreme environments. 

These high-temperature materials play a vital role in various industries, including automotive, electronics, healthcare, and energy. Their ability to withstand high temperatures and harsh conditions makes them indispensable for critical components and applications where performance and reliability are paramount. 

High-Temperature Nylon (PA10T、PA6T) 

Key Attributes  

Description 

Dimensional Stability 

High-temperature nylon maintains precise dimensions and geometrical shapes even in humid environments, ensuring consistent performance. 

Low Moisture Absorption 

 

 

With its low moisture absorption property, high-temperature nylon remains stable in humid conditions, reducing the risk of deformation caused by moisture. 

High Rigidity 

 

 

High-temperature nylon exhibits high rigidity and strength, enabling it to withstand significant mechanical loads and stresses in demanding applications. 

High Heat Resistance

 

 

This material maintains stability in high-temperature environments without compromising its strength and characteristics, making it suitable for demanding temperature conditions. 

Low Warpage 

High-temperature nylon's low warpage property helps it maintain shape stability at elevated temperatures, mitigating issues related to heat-induced deformation or moisture absorption 

 

Applications 

Description 

FPC Connectors 

 

 

High-temperature nylon is essential in FPC connectors, where its exceptional heat stability and chemical resistance enable its use in high-density electronic connectors for SMT processes, ensuring reliable performance in demanding electronic applications. 

High-Temperature Structural Components 

Utilized in high-temperature structural components like engine parts, heat treatment equipment, and high-temperature sealing components, high-temperature nylon maintains stability under extreme heat conditions, making it suitable for applications requiring resistance to heat deformation. 

Aerospace Application Connectors 

 

In the aerospace industry, high-temperature nylon finds extensive use in connectors and components due to its ability to withstand extreme temperatures and environmental conditions, ensuring reliable performance in aerospace applications. 

Water Treatment Applications 

 

High-temperature nylon's corrosion resistance, stability at high temperatures, and low moisture absorption make it an ideal choice for equipment such as pipes, valves, and filters in water treatment and chemical industries, ensuring durability and reliability in harsh environments. 

Healthcare

High-temperature nylon is gaining prominence in the medical device and healthcare sector, particularly in applications demanding high-temperature and chemical resistance, contributing to the development of advanced and reliable medical equipment 

 

Liquid Crystal Polymers (LCP) 

Key Attributes  

Description 

Excellent Chemical Resistance 

LCP exhibits exceptional chemical stability, effectively resisting corrosion and chemical erosion in various environments, ensuring long-term durability. 

Precision Injection Molding 

With LCP's precise injection molding capabilities, manufacturers can create intricate geometries and complex structures with high accuracy, meeting the demands of precision applications. 

High Flow 

 

LCP demonstrates high flowability during molding processes, enabling it to fill intricate molds and produce intricate components efficiently and effectively. 

Flame Retardant UL94V0 

 

Featuring outstanding flame-retardant properties and compliance with the UL94V0 standard, LCP is suitable for electronic and industrial applications requiring stringent fire safety standards. 

Low Warpage 

LCP maintains low warpage properties even at high temperatures, making it suitable for use in high-temperature environments and applications that demand precise dimensional stability. 

Low Shrinkage 

 

 

With low shrinkage characteristics, LCP ensures the dimensional stability of finished parts, minimizing post-processing and enhancing overall product quality. 

Excellent Dimensional Stability 

LCP demonstrates excellent dimensional stability, maintaining precise dimensions even in high-temperature and humid conditions, ensuring consistent performance in demanding applications. 

Low Moisture Absorption 

Thanks to its low moisture absorption property, LCP maintains stable performance in humid environments, reducing the risk of dimensional changes and ensuring reliable functionality over time. 

 

Applications 

Description 

FPC Connectors 

 

 

LCP excels in FPC connectors due to its exceptional heat resistance, low warpage, and dimensional stability, making it an ideal choice for high-density connections where reliability is paramount. 

Medical Devices 

 

 

LCP is utilized in medical devices, including high-temperature medical equipment and chemically resistant instruments, thanks to its excellent heat resistance and reliability, ensuring optimal performance in critical healthcare applications. 

Motor Coils 

 

 

With its high heat resistance and dimensional stability, LCP is commonly employed in motor coils and electrical components, particularly in environments with high temperatures and humidity, where reliable performance is essential. 

Lens Modules 

 

The precision injection molding capabilities and dimensional stability of LCP make it suitable for optical applications such as lens modules, where precise geometries and stable performance are crucial for optimal optical performance. 

Sim Card Holders 

 

LCP's superior dimensional stability and heat resistance make it an ideal choice for Sim card sockets and electronic connectors, ensuring reliable performance and longevity in high-density connection applications. 

CPU Connectors 

In Central Processing Unit (CPU) connectors, LCP is utilized to achieve high-speed data transmission and reliable connections, benefiting from its excellent dimensional stability and heat resistance properties, essential for maintaining signal integrity and performance. 

 

Polyphenylene Sulfide (PPS) 

Key Attributes  

Description 

Excellent Chemical Resistance 

PPS showcases exceptional chemical stability, effectively resisting corrosion and chemical erosion even in harsh environments, ensuring long-term durability and reliability in various applications. 

High Heat Resistance 

With its excellent high-temperature resistance, PPS maintains structural stability under extreme temperatures, making it suitable for demanding applications where thermal stability is crucial. 

Precision Injection Molding 

PPS enables precise injection molding, allowing for the creation of intricate and complex geometries with high accuracy, enhancing design flexibility and manufacturing efficiency. 

High Flow 

 

PPS exhibits high flowability, enabling it to fill complex molds with ease and facilitate the production of intricate components, ensuring uniform material distribution and optimal part quality. 

Flame Retardant UL94V0 

 

PPS offers outstanding flame retardant properties and meets the UL94V0 standard, making it a safe and reliable choice for electronic and industrial applications where fire safety is paramount. 

Low Warpage 

Maintaining low warpage properties at high temperatures, PPS is suitable for use in environments with elevated temperatures, ensuring dimensional stability and precise performance of components. 

Low Shrinkage 

 

 

With its low shrinkage characteristics, PPS ensures the dimensional stability of finished parts, minimizing the risk of deformation or distortion during the manufacturing process. 

Excellent Dimensional Stability 

PPS demonstrates excellent dimensional stability in high-temperature and humid environments, making it ideal for applications that require precise tolerances and consistent performance over time. 

Low Moisture Absorption 

PPS's low moisture absorption property allows it to maintain stable performance in humid conditions, ensuring reliable operation and longevity in challenging environments. 

High CTI Value 

 

 

With a high Comparative Tracking Index (CTI) value, PPS exhibits superior insulating performance in high-voltage environments, ensuring electrical safety and reliability in electronic applications. 

 

 

Applications 

Description 

Hot Gas Filtration 

 

PPS's high heat resistance and chemical stability make it an excellent choice for filter elements in hot gas filtration systems. It effectively filters hot gases in corrosive environments, ensuring efficient operation and durability. 

New Energy Vehicle Connectors 

 

In connectors for new energy vehicles, PPS is preferred for its high heat resistance and dimensional stability. It ensures reliable performance in high-voltage electric systems, contributing to the efficiency and safety of vehicles. 

Fuel Conduits 

 

PPS's chemical resistance makes it suitable for use in fuel conduits, where it withstands fuel corrosion and maintains system integrity. This ensures the safe and efficient operation of fuel delivery systems in various applications. 

Coolant Pumps 

 

Automotive parts like coolant pumps benefit from PPS's high heat resistance and chemical stability. It enables these components to operate effectively in high-temperature and corrosive environments, contributing to the performance and longevity of vehicles. 

Battery O-Rings 

 

PPS is utilized in battery O-rings (seals) to isolate the interior and exterior environments of batteries. Its low moisture absorption and chemical stability ensure the integrity of battery compartments, enhancing safety and reliability. 

Product Catalog 

Categories 

Name 

Series 

 

 

High-Temperature Nylon (PA10T, PA6T) 

 

UG, UF Series 

Bio-based 

Flame Retardant 

Glass Fiber Reinforced 

30% Glass Fiber Reinforced  

Halogen Free Flame Retardant  

Mineral Fiber Reinforced 

Liquid Crystal Polymers (LCP) 

LF、LG Series 

Glass Fiber Reinforced 

Mineral Fiber Reinforced 

Polyphenylene Sulfide (PPS) 

JG Series 

 

 

Glass Fiber Reinforced 

Mineral Fiber Reinforced 

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