In the field of industrial production and product processing, high-temperature working environments impose strict requirements on raw material performance. Conventional rubber materials are prone to aging, deformation and damage, making them unable to sustain long-term operation under high heat conditions. Featuring outstanding thermal stability and comprehensive performance, 350°C high-temperature resistant silicone rubber has become a preferred material for thermal sealing and pipe processing, and is widely adopted in the production of various industrial supporting products.



The core advantage of this silicone rubber lies in its excellent heat resistance. It can withstand continuous high temperatures up to 350°C without rapid aging, cracking or functional failure. The material stably maintains its elasticity and structural integrity under persistent high-heat working conditions, effectively solving the common drawbacks of traditional rubber such as poor temperature resistance and short service life. Compared with ordinary rubber materials, it delivers greatly improved high-temperature tolerance and broader application adaptability, serving as an ideal elastic raw material for high-temperature industrial scenarios.

In terms of processing adaptability, this silicone rubber features strong compatibility and supports two mainstream molding processes: compression molding and extrusion molding. It can accommodate different production equipment and product shape requirements. Whether for specially shaped sealing parts with complex structures or standard tubular products, the material can be efficiently molded through corresponding processes. It is highly suitable for large-scale and standardized industrial production, helping improve production efficiency and reduce overall processing costs.

For products intended for food contact scenarios, standardized post-treatment procedures are required to ensure safety and compliance. All food-contact finished products made from this material need to undergo post-curing treatment at 200°C for four consecutive hours. This standardized post-curing process optimizes the internal structure of the material, enhances its compactness, structural stability and overall safety, eliminates potential usage risks, and enables the finished products to meet stringent industry standards for food contact applications.

Beyond its prominent heat resistance, the silicone rubber also possesses reliable mechanical properties with excellent toughness and structural stability. During daily service, it resists damage caused by extrusion, stretching and deformation, and delivers outstanding fatigue resistance and aging resistance. Finished products made from this material feature longer service life and higher cost performance compared with ordinary rubber products. The combination of stable mechanical performance and superior heat resistance enables it to adapt to diverse and complex working conditions.

Benefiting from its multiple superior properties, this high-temperature resistant silicone rubber is mainly applied in the manufacturing of heat-resistant sealing parts and heat-resistant extrusion tubes. Industrial high-temperature sealing components and protective pipeline products made from this material can operate stably in long-term high-temperature environments, ensuring reliable equipment tightness and operational stability. It is widely used in machinery manufacturing, pipeline transportation, food processing and other industries, acting as an indispensable high-performance elastic material for industrial high-temperature supporting applications.