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High-Temperature Material
The demand for materials that can withstand high-temperature environments is steadily increasing in modern industrial applications.
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PRODUCT DETAIL
The demand for materials that can withstand high-temperature environments is steadily increasing in modern industrial applications. High-temperature materials, with their exceptional heat resistance, low moisture absorption, high rigidity, low warpage, dimensional stability, chemical stability, and mechanical performance, could be found in various fields. They drive continuous technological innovation and development, which is crucial in numerous industries. Nytex offers several high-temperature materials:
- High-Temperature Nylon (PA10T、PA6T)
- Liquid Crystal Polymers (LCP)
- Polyphenylene Sulfide (PPS)
These high-temperature materials are ideal for FPC connectors, high-temperature structural components, medical devices, lens modules, EV connectors, fuel conduits, battery modules, battery O-rings, and many others. They perform in high-temperature and extreme environmental conditions, making them the materials of choice.
High-Temperature Nylon (PA10T、PA6T)
| Key Attributes | Description |
| Dimensional Stability | High-temperature nylon exhibits excellent dimensional stability, remaining unaffected by humid environments, ensuring precise dimensions and geometrical shapes. |
| Low Moisture Absorption
|
Its low moisture absorption property allows it to maintain stable performance in humid conditions, reducing deformation caused by moisture. |
| High Rigidity
|
High-temperature nylon boasts high rigidity and strength, capable of withstanding significant mechanical loads, making it suitable for applications demanding high rigidity |
| High Heat Resistance
|
This material can maintain stability in high-temperature environments without losing its strength and characteristics, making it suitable for high-temperature operating conditions. |
| Low Warpage | High-temperature nylon’s low warpage property helps it maintain shape stability at high temperatures, avoiding heat deformation or moisture absorption issues. |
| Applications | Description |
| FPC Connectors | High-temperature nylon plays a crucial role in FPC connectors. Due to its excellent heat stability and chemical resistance, it can be used in high-density electronic connectors for SMT processes in high-temperature and high-density electronic connectors. |
| High-Temperature Structural Components | High-temperature nylon is used in structural components such as engine parts, heat treatment equipment, and high-temperature sealing components. Its ability to maintain stability under extremely high temperatures makes it suitable for applications that require resistance to high-temperature heat deformation. |
| Aerospace Application Connectors | In the aerospace sector, high-temperature nylon is widely used in connectors and components due to its ability to withstand extreme temperatures and environmental conditions. |
| Water Treatment Applications | In water treatment and chemical industries, the corrosion resistance, high-temperature stability, and low moisture absorption of high-temperature nylon make it a choice for equipment such as pipes, valves, filters, etc. |
| Healthcare | High-temperature nylon is also gaining significant attention in the medical device and healthcare sector, especially in applications requiring high-temperature and chemical resistance. |
Liquid Crystal Polymers (LCP)
| Key Attributes | Description |
| Excellent Chemical Resistance | LCP possesses exceptional chemical stability, resisting corrosion and chemical erosion. |
| Precision Injection Molding | LCP allows for precise injection molding, enabling complex geometries and intricate structures. |
| High Flow | LCP exhibits high flowability, allowing it to fill complex molds and facilitate the manufacturing of intricate components. |
| Flame Retardant UL94V0 | LCP offers outstanding flame-retardant properties and complies with the UL94V0 standard, making it suitable for various electronic and industrial applications. |
| Low Warpage | LCP maintains low warpage properties at high temperatures, making it suitable for high-temperature environments and precision components. |
| Low Shrinkage | LCP has low shrinkage characteristics, ensuring the dimensional stability of finished parts. |
| Excellent Dimensional Stability | LCP demonstrates excellent dimensional stability in high-temperature and humid environments, making it suitable for applications demanding precision. |
| Low Moisture Absorption | LCP’s low moisture absorption property allows it to maintain stable performance in humid conditions. |
| Applications | Description |
| FPC Connectors
|
LCP performs exceptionally well in FPC connectors. Its high heat resistance, low warpage, and dimensional stability make it an ideal material for high-density connections. |
| Medical Devices
|
LCP finds applications in medical devices, including high-temperature medical equipment, chemically resistant instruments, and reliable connectors. |
| Motor Coils
|
Due to its high heat resistance and dimensional stability, LCP is used in motor coils and electrical components, especially in high-temperature and humid environments. |
| Lens Modules
|
LCP’s precision injection molding capabilities and dimensional stability make it suitable for optical applications like lens modules. |
| Sim Card Holders
|
LCP is used in SIM card sockets and other electronic connectors thanks to its superior dimensional stability and heat resistance, making it suitable for high-density connections. |
| CPU Connectors | LCP is employed in Central Processing Unit (CPU) connectors to achieve high-speed data transmission and reliable connections. |
Polyphenylene Sulfide (PPS)
| Key Attributes | Description |
| Excellent Chemical Resistance | PPS exhibits outstanding chemical stability, resisting corrosion and chemical erosion. |
| High Heat Resistance | PPS has excellent high-temperature resistance, maintaining structural stability under extreme temperatures. |
| Precision Injection Molding | PPS allows for precise injection molding, enabling complex geometries and intricate structures.
|
| High Flow
|
PPS has high flowability, allowing it to fill complex molds and facilitate the manufacturing of intricate components. |
| Flame Retardant UL94V0
|
PPS offers outstanding flame retardant properties and complies with the UL94V0 standard, making it suitable for various electronic and industrial applications. |
| Low Warpage | PPS maintains low warpage properties at high temperatures, making it suitable for high-temperature environments and precision components. |
| Low Shrinkage
|
PPS has low shrinkage characteristics, ensuring the dimensional stability of finished parts. |
| Excellent Dimensional Stability | PPS demonstrates excellent dimensional stability in high-temperature and humid environments, making it suitable for applications demanding precision. |
| Low Moisture Absorption | PPS’s low moisture absorption property allows it to maintain stable performance in humid conditions. |
| High CTI Value | PPS has a high Comparative Tracking Index (CTI) value, indicating its superior insulating performance in high-voltage environments. |
| Applications | Description |
| Hot Gas Filtration
|
Due to its high heat resistance and chemical stability, PPS is commonly used in the filter elements of hot gas filtration systems, effectively filtering in high-temperature and corrosive environments. |
| New Energy Vehicle Connectors
|
PPS is widely used in connectors for new energy vehicles, and its high heat resistance and dimensional stability make it an ideal choice for high-voltage electric systems. |
| Fuel Conduits
|
PPS is often used in fuel conduits, resisting fuel corrosion and ensuring reliable system operation thanks to its chemical resistance. |
| Coolant Pumps
|
PPS is also frequently applied in automotive parts like coolant pumps, thanks to its high heat resistance and chemical stability, enabling operation in high-temperature and corrosive environments. |
| Battery O-Rings
|
PPS is used in battery O-rings (seals), effectively isolating batteries’ interior and exterior environments due to their low moisture absorption and chemical stability. |
