Sintered material made from high-purity nickel, with a proportion of noble graphite (99.9% high-purity, chemically neutral electro-noble graphite) which is embedded under preload in micro-distribution.
The use of high-purity nickel and graphite without any additional substances ensures the high corrosion resistance of the material.
This alloy enables a rapid, self-lubricating function through the formation of a firmly adhering graphite film from the alloy on the counter material.
It should be noted that the use of this high-purity alloy is only permitted in conjunction with liquid media.
Type of lubrication: self-lubricating, maintenance-free
Temperature range: 150 to +450 °C
Max. sliding speed: 0.4 m/s
Max. PV value: 1 MPa m/s
Max. dynamic surface pressure: 50 MPa
Max. static surface pressure: 100 MPa
Temperature range: 150 to +450 °C
Max. sliding speed: 0.4 m/s
Max. PV value: 1 MPa m/s
Max. dynamic surface pressure: 50 MPa
Max. static surface pressure: 100 MPa
Sliding elements made of solid tin bronze (CuSn8) with a grid-like arrangement of lubrication pockets, which serve as lubricant reservoirs. These slid...
In a macro depot system, solid lubricants are stored that ensure permanent self-lubrication without additional lubricants. The overlapping arrangement...
The base of the metallic matrix is iron powder with the addition of nickel, copper, and molybdenum to enhance high-temperature and scale resistance.
A...
sufficient solid lubricant is available everywhere to ensure maintenance-free operation.
Type of lubrication: self-lubricating, maintenance-free
Temp...
Steel with porous-sintered tin bronze, which is coated with PTFE. The PTFE coating enables maintenance-free, self-lubricating operation with low frict...
Steel with porous-sintered tin bronze, which is coated with POM.
The POM coating creates a low-maintenance sliding material that is well-suited for hi...
Sliding elements made of solid tin bronze (CuSn8) with lubrication reservoirs that serve as lubricant storage.
The lubrication reservoirs allow for la...
In a macro depot system, solid lubricants are stored that ensure permanent self-lubrication without additional lubricants. The overlapping arrangement...
In a macro bearing system, solid lubricants are stored that ensure permanent self-lubrication without additional lubricants. The overlapping arrangeme...
In a macro depot system, solid lubricants are stored that ensure permanent self-lubrication without additional lubricants. The overlapping arrangement...
Sliding elements made of solid tin bronze (CuSn8) with a grid-like arrangement of lubrication pockets, which serve as lubricant reservoirs. These slid...
In a macro depot system, solid lubricants are stored that ensure permanent self-lubrication without additional lubricants. The overlapping arrangement...
The base of the metallic matrix is iron powder with the addition of nickel, copper, and molybdenum to enhance high-temperature and scale resistance.
A...
sufficient solid lubricant is available everywhere to ensure maintenance-free operation.
Type of lubrication: self-lubricating, maintenance-free
Temp...
Steel with porous-sintered tin bronze, which is coated with PTFE. The PTFE coating enables maintenance-free, self-lubricating operation with low frict...
Steel with porous-sintered tin bronze, which is coated with POM.
The POM coating creates a low-maintenance sliding material that is well-suited for hi...
Sliding elements made of solid tin bronze (CuSn8) with lubrication reservoirs that serve as lubricant storage.
The lubrication reservoirs allow for la...
In a macro depot system, solid lubricants are stored that ensure permanent self-lubrication without additional lubricants. The overlapping arrangement...
In a macro bearing system, solid lubricants are stored that ensure permanent self-lubrication without additional lubricants. The overlapping arrangeme...
In a macro depot system, solid lubricants are stored that ensure permanent self-lubrication without additional lubricants. The overlapping arrangement...