FKM High Temperature Oil Seals Dede Supply Different Types Oil Seals

High-temperature sealing plays a vital role in a wide range of industrial
applications where equipment operates under extreme heat. From aerospace
engines and automotive exhaust systems to chemical reactors and power plants,
effective sealing solutions are essential to ensure safety, maintain
efficiency, and prevent leaks. Designing a reliable seal for high-temperature
environments requires careful material selection, precision engineering, and a
deep understanding of thermal dynamics.

Challenges in High-Temperature Sealing

One of the main challenges in high-temperature applications is material
degradation. Many common elastomers lose elasticity, harden, or break down
chemically when exposed to elevated temperatures. This can lead to leaks,
system failures, and even safety risks. Additionally, thermal expansion,
pressure fluctuations, and chemical exposure further complicate the sealing
process.

Another issue is compression set—a permanent deformation of the sealing
material after prolonged exposure to heat and pressure. This can cause the seal
to lose contact with mating surfaces, reducing its effectiveness.

Material Selection for High-Temperature Seals

To withstand high temperatures, materials must retain their mechanical
properties while resisting thermal and chemical degradation. Some of the most
widely used materials include:

Fluorocarbon Rubber (FKM): Excellent heat resistance up to 250°C, as well as
strong resistance to oils, fuels, and chemicals. Commonly used in automotive
and industrial sealing.

Silicone Rubber (VMQ): Known for its flexibility and stability at high
temperatures (up to 225°C), making it suitable for static seals and
applications requiring low compression force.

Perfluoroelastomers (FFKM): Offering top-tier resistance to extreme heat (over
300°C) and aggressive chemicals. These are often used in semiconductor
manufacturing and aerospace.

Graphite and Metal Seals: For ultra-high temperatures (above 400°C), metallic
or graphite-based seals are preferred, as they offer exceptional thermal
stability and pressure resistance.

Design and Application Considerations

A high-temperature seal must not only resist heat but also accommodate thermal
expansion, pressure variation, and dynamic motion if present. For dynamic
applications, like rotating shafts, spring-energized seals or metal-cased lip
seals are often used. In static applications, gaskets or O-rings with heat-
resistant materials and proper gland design are critical.

Additionally, installation surfaces must be properly finished and maintained to
avoid damaging the seal. Regular inspections and replacement cycles should be
part of maintenance routines, especially in systems exposed to continuous or
cyclical high heat.

Industries and Typical Uses

High-temperature seals are widely used in:

Aerospace: Jet engines, fuel systems, and environmental control systems.

Automotive: Exhaust systems, turbochargers, and engine compartments.

Chemical Processing: Reactors and high-temperature pipelines exposed to
corrosive substances.

Power Generation: Steam turbines and boilers.

Oil & Gas: Drilling equipment and high-temperature pumps.

High-temperature sealing is a specialized field that requires the integration
of advanced materials, smart design, and reliable manufacturing practices. By
selecting the right sealing material and configuration for the application,
manufacturers can prevent system failures, increase equipment life, and improve
operational safety. In critical industries where performance under heat is non-
negotiable, investing in high-quality sealing solutions is not just advisable—
it’s essential.

Minimum Order: 500 pieces

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