VIIPLUS INTERNATIONAL |
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The Polyformaldehyde Bore Bearing / PTFE Bushing is a high-performance, wear-resistant component designed for use in various industrial applications. The combination of polyformaldehyde and polytetrafluoroethylene (PTFE) materials offers exceptional mechanical properties and lubrication characteristics.
Polyformaldehyde, also known as acetal or POM, is a highly durable material with excellent stiffness, strength, and creep resistance. It is also known for its good wear resistance, making it suitable for use in bearings and bushings that require high-performance and long-lasting durability.
PTFE, on the other hand, is a fluoropolymer known for its low friction and excellent lubrication properties. It provides a smooth surface that reduces friction and wear, enhancing the performance and lifespan of the bearing or bushing.
The Polyformaldehyde Bore Bearing / PTFE Bushing combines the strengths of both materials, resulting in a highly reliable and long-lasting component. It is suitable for use in a wide range of machinery and equipment, including pumps, motors, gearboxes, and other rotating equipment.
Wh it's used in high-speed or high-load applications, the Polyformaldehyde Bore Bearing / PTFE Bushing can provide smooth and efficient operation, reducing downtime and maintenance costs. Its self-lubricating properties also eliminate the need for regular lubrication, simplifying the maintenance process.
In summary, the Polyformaldehyde Bore Bearing / PTFE Bushing is a high-performance component that offers durability, wear resistance, and smooth operation in various industrial applications. Its unique material combination and design make it a reliable choice for machinery and equipment that require precision and long-lasting performance.
1. Pom0.30-0.50mm modified polyformaldehyde has a good wear resistance performance. The bearing surface has oil storage pits with spiral angles
arranged regularly, and the assembly must be covered with
lubricating grease.
2. Copper powder layer 0.20~0.35mm, with good bearing capacity and
wear resistance, good thermal conductivity can timely transfer the heat generated during the operation of the
bearing. The composite material can penetrate into the pores of the
copper powder ball to improve the bonding strength.
3. Low carbon steel, providing bearing capacity and heat transfer.