| CER.SM 105 material characteristics |
CER.BM 441; 442* material characteristics *Same base alloy, with running in film |
||
|---|---|---|---|
| Tensile Strength [MPa] | 85 | Tensile Strength [MPa] | – |
| Compressive Strength [MPa] | 350 | Compressive Strength [MPa] | 300 |
| Hardness [HB 2.5/31,25/15], min. | 65 | Hardness [HB 2.5/31,25/15], min. | 40 |
| Density [g/cm3] | 6.4 | Density [g/cm3] | 6.2 |
| Type of solid lubricant | C | Type of solid lubricant | C |
| Max. static load [MPa] | 230 | Max. static load [MPa] | 290 |
| Max. dynamic load [MPa] | 115 | Max. dynamic load [MPa] | 100 |
| Max. sliding speed, dry [m/s] | 0.35 | Max. sliding speed, dry [m/s] | 0.5 |
| Max. PV dry [N/mm2 x m/s] | 1.5 | Max. PV dry [N/mm2 x m/s] | 1.0 |
| Typical coefficient of friction, dry | 0.12 – 0.18 | Typical coefficient of friction, dry | 0.1 – 0.2 |
| Typical coefficient of friction, wet | 0.11 – 0.17 | Typical coefficient of friction, wet | 0.1 – 0.15 |
| Service temperature min/max [°C] | -50 / 200 | Service temperature min/max [°C] | -150 / 280 |
| Important remark: The above-mentioned material properties, in particular friction coefficients, are not assured properties. They are to be used only as guidelines for the selection of materials. | |||
Ceramet self-lubricating plain bearings and bushings with a sintered sliding layer are especially suitable for continuous operations in a demanding environment. Sintering technology allows for the construction and manufacturing of a wide range of complex shapes with consistent self-lubricating properties throughout the whole lifecycle of critical moving parts. Sintered materials provide reliable and high-performance no-grease solutions.
Ceramet CER.SM yaw pucks offer wind turbines an excellent solution as brake pad material in both active and passive yaw braking systems.
Ceramet yaw pucks, as braking pad materials, maximize the efficient and quiet operation of the wind turbine yaw drive system preventing stick-slip (fog-horning) that can stop operations.
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