JIAXING VIIPLUS INTERNATIONAL TRADING CO.,LTD |
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The Dx Id Yellow Perforated Oilless Bushes with Tin/Copper Plating are precision-engineered components designed to offer exceptional performance in a wide range of industrial applications. The yellow color and perforated design not only provide a distinct visual identification but also aid in heat dissipation and lubrication distribution, respectively.
The oilless bushes are constructed from high-quality materials that ensure durability and resistance to wear and tear. The tin/copper plating adds an extra layer of protection, enhancing corrosion resistance and extending the lifespan of the bushes.
The perforated design allows for the effective distribution of lubrication, reducing friction and heat build-up during operation. This not only improves the efficiency of the bushes but also minimizes the need for frequent maintenance.
These bushes are suitable for use in various industrial settings, including machinery, automotive components, and other heavy-duty applications. Their oilless design makes them particularly suitable for environments where the use of lubricating oil may be inconvenient or undesirable.
In summary, the Dx Id Yellow Perforated Oilless Bushes with Tin/Copper Plating offer a robust and reliable solution for industrial applications, providing exceptional performance and durability.
Profile: Bushing No Flange Split
PLAIN BEARINGS
Plain Bearings Sleeve Bearings, Spherical Plain Bearings – Radial,
Spherical Plain Bearings - Rod Ends, Spherical Plain Bearings -
Thrust
Material Description: POM Composite of Steel Backing, Tin/Bronze
Layer
Inch - Metric: Metric
Other Features: With Lubrication Hole
Load capacity | 70N/mm² | Friction Coef | 0.05~0.25 |
Temperature | -40℃~130℃ | PV limit(dry) | 2.2N/mm²·m/s |
Speed limit | 2.5m/s |
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.