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What Are The Benefits Of Flexible Graphite?

21 Jul.,2025

What Are The Benefits Of Flexible Graphite?

Flexible graphite seal material is manufactured from mineral graphite that’s high purity, compressed, expanded, and exfoliated. The material comes available in different grades including pure premium/nuclear grade and specially treated grade with enhanced corrosion and oxidation resistance.

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But what exactly are the benefits of flexible graphite seal material when it comes to technical textiles. What makes them the ideal choice for businesses when it comes to their various applications?

Consider the following advantages that flexible graphite offers many different industries.

Flexible graphite is non-hazardous

It’s crucial for technical textiles to be compliant with the Restriction of Hazardous Substances Directive (RoHS) and the Registration, Evaluation, Authorization, and Restriction of Chemicals (REACH). Without compliance, the textiles may be dangerous to use.

Flexible graphite is not only compliant with both RoHS and REACH, but it’s also non-hazardous for the employees who work with them. Flexible graphite products are free of hazardous substances listed by both organizations including new substances that were listed in .

Flexible graphite is heat and chemical resistant

Flexible graphite has the ideal properties of gasket material for a variety of fluid sealing applications. It’s chemical resistant and compatible with corrosive chemicals, heat and flame resistant, chemically inert, and flexible and conformable.

Flexible graphite also has a low creep relaxation which means it doesn’t age. It’s highly pure with low ash content with consistent density and textile strength, and it’s both deferentially thermal conductive and electrically conductive.

Flexible graphite can be used for a variety of applications

There’s a reason why flexible graphite is great for most industries, and that’s because it works well for many applications. Flexible graphite has been known to be used as:

Chemical and heat resistant thermal conductive gaskets, seals, and liners
Chemical shields
Electromagnetic interference shields
Heat barriers
Heat dissipation liners
Thermal management unit materials
Dry sheet lubricants
Electrochemical or thermal electronic applications such as stress sensing, vibration damping, and spark plasma sintering (SPS)

Looking for flexible graphite seal material for your business?

Flexible graphite is made up of approximately 95% to 99% carbon and can be used in a variety of applications because of its heat dissipation liner.

If your business needs flexible graphite seal materials, Mineral Seal has what you need. To learn more about our flexible graphite packing, compression packing, ceramic fiber paper, and other products, contact Mineral Seal today.

The Difference Between PTFE and Graphite Braided Packing

Packing plays a crucial role in preventing product leakage and prolonging the lifespan of valves, pumps, and other rotating equipment. When it comes to choosing braided packing, the primary factors to consider are pH value, temperature, and required shaft speed. PTFE and graphite packing are two popular material choices available in the market. In this blog post, we'll explain the differences between these options to help you determine the best pump packing material for your specific application.

Composition

Graphite Packing

Graphite is a naturally occurring form of carbon. To make graphite packing, multiple graphite filaments are heated and twisted together to form a yarn, which is then braided together to increase tensile strength and durability. Pure graphite packing is highly reliable in industrial applications since it withstands extreme heat and pressure. Typically, graphite packing has 95% carbon content or more. To further increase sealing performance, graphite packing can be coated with other lubricants like aramid or PTFE to fill gaps between the braided graphite fibers.

Flexible Graphite Packing

Flexible graphite, also known as expanded graphite, is made by oxidizing graphite flakes with sulfuric and nitric acids and exposing it to high heat. Doing so weakens the bonds between the layers of carbon and causes the layers to expand into a wormlike shape.

PTFE Packing

Unlike graphite packing, PTFE packing is comprised of synthetic materials. PTFE is a fluoropolymer of tetrafluoroethylene, also known as Teflon. PTFE packing can be made of 100% PTFE, impregnated with a lubricant, or a standard yarn that is dipped with PTFE.

Specifications: Comparing Graphite and PTFE

PTFE Packing

Graphite Packing

Color

White

Black

Coefficient of Friction

Lowest

Low

Temperature Range

-300 °F to 500 °F

-400 °F to 850 °F

If you are looking for more details, kindly visit Flexible graphite packing.

pH Range

0-14

Max Shaft Speed

1,200 fpm

Unlimited

Corrosion Resistance

Highest

High

Thermal Conductivity

Low

High

Tensile Strength

2,000 PSI

650 PSI

Self-Lubricating

If Pre-Lubricated

Yes

Graphite packing is highly conductive compared to PTFE and performs better in more extreme temperatures and shaft speeds since PTFE begins breaking down and carbonizing past 500 °F. Graphite packing is self-lubricating and can operate in wet or dry environments. Both have a low coefficient of friction, although PTFE’s is lower. PTFE is very resistant to chemicals, acids, gases, and corrosive substances except for molten alkali metals. PTFE’s white color doesn’t transfer, and other yarns can be dipped in PTFE to prevent color transfer when needed. PTFE is non-conductive and protects against shaft wear.

Applications: Graphite and PTFE in Action

Graphite packing is ideal for applications involving high pressures, shaft speeds, and temperatures typically found in the following industries:

Chemical Processing
Equipment Manufacturers
Marine & Dredging
Mining, Nuclear
Oil & Gas
Power Generation
Pulp & Paper

Due to PTFE’s resistance to chemicals and corrosive substances, Teflon packing works most efficiently for these industries:

Chemical Processing
Food & Beverage
Electrical
Pulp & Paper

Benefits: What Makes Graphite and PTFE Stand Out?

Expanded Graphite Filler

Due to graphite packing’s resistance to high temperatures, it’s widely used to process acids and oils. It can operate in dry or low-flush conditions since it’s self-lubricating. Graphite packing is also easy to install and maintain, making it an often cost-effective option. It’s a great substitute for asbestos filler.

PTFE packing has some inherent advantages over other types: its low coefficient of friction leads to a longer shelf life, it doesn’t bleed color so it’s FDA-approved for food and pharmaceutical processes, and its chemical resistance makes it popular for corrosive environments.

Products: Find the Right Fit for Your Needs

The choice between PTFE and graphite braided packing depends on your specific application requirements, such as temperature, pressure, and chemical resistance. By understanding the differences between these two popular materials, maintenance technicians and engineers can make an informed decision that best suits their needs.

For more Copper Clad Steel Flat manufacturerinformation, please contact us. We will provide professional answers.

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