Filled PTFE products include variations of PTFE blended with fillers to enhance properties. Examples include glass fiber-filled for improved strength, carbon-filled for electrical conductivity, bronze-filled for wear resistance, graphite-filled for self-lubrication, ceramic-filled for hardness, and stainless steel-filled for strength and stability.
Enhanced Mechanical Properties: Filling PTFE with materials like glass fibers, carbon, bronze, graphite, or ceramics improves its mechanical properties such as strength, wear resistance, dimensional stability, and creep resistance. This allows for better performance in demanding applications with high loads, pressures, or abrasive conditions.
Improved Electrical Conductivity: Certain filled PTFE products, like carbon-filled or stainless steel-filled PTFE, offer enhanced electrical conductivity. This makes them suitable for applications that require static dissipation, electrical grounding, or resistance to electrical arcing.
Increased Thermal Conductivity: Filling PTFE with materials like bronze, graphite, or ceramics improves its thermal conductivity.
Filled PTFE products are a type of polytetrafluoroethylene products that has been enhanced with the addition of fillers. These fillers are typically inert substances like glass fibers, carbon, graphite, bronze, or other materials that are blended with PTFE to enhance its properties.
Filled PTFE products find applications in various industries. They are commonly used in sealing applications, such as gaskets and seals, due to their enhanced mechanical properties. They are also employed in bearings, piston rings, valve seats, and other components that require high wear resistance and low friction. Filled PTFE products can be found in chemical processing, automotive, oil and gas, and other demanding environments.
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.jpg "The Role of PTFE Thin Film in Cryogenic Applications")