In a macro depot system, solid lubricants are stored that ensure permanent self-lubrication without additional lubricants. The overlapping arrangement of the depots guarantees lubrication of the entire bearing surface.
Highly wear-resistant copper alloys are used as base materials according to the operating conditions. The combination of copper alloy and solid lubricant depots provides the ideal conditions for your bearing constructions.
Use in dry environments as well as in liquids is possible.
Type of lubrication: self-lubricating, maintenance-free
Alloy SL-1 - CuZn25Al5
Temperature range: -100 to +430 °C
Max. sliding speed: 0.5 m/s
Max. PV value: 1.5 MPa m/s
Max. dynamic surface pressure: 120 MPa
Max. static surface pressure: 300 MPa
Alloy: SL-1 - CuZn25Al5
Temperature range: -100 to +430 °C
Max. sliding speed: 0.5 m/s
Max. PV value: 1.5 MPa m/s
Max. dynamic surface pressure: 120 MPa
Max. static surface pressure: 300 MPa
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 lubrication reservoirs that serve as lubricant storage.
The lubrication reservoirs allow for la...
sufficient solid lubricant is available everywhere to ensure maintenance-free operation.
Type of lubrication: self-lubricating, maintenance-free
Temp...
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...
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...
In a macro depot system, solid lubricants are stored that ensure permanent self-lubrication without additional lubricants. The overlapping arrangement...
Sintered material made from high-purity nickel, with a proportion of noble graphite (99.9% high-purity, chemically neutral electro-noble graphite) whi...
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 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 lubrication reservoirs that serve as lubricant storage.
The lubrication reservoirs allow for la...
sufficient solid lubricant is available everywhere to ensure maintenance-free operation.
Type of lubrication: self-lubricating, maintenance-free
Temp...
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...
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...
In a macro depot system, solid lubricants are stored that ensure permanent self-lubrication without additional lubricants. The overlapping arrangement...
Sintered material made from high-purity nickel, with a proportion of noble graphite (99.9% high-purity, chemically neutral electro-noble graphite) whi...
Sliding elements made of solid tin bronze (CuSn8) with a grid-like arrangement of lubrication pockets, which serve as lubricant reservoirs. These slid...