Due to corrosion (e.g. oxidation), an impurity layer is formed on the contact surface, which increases the resistance. An impurity layer resistance disturbs, especially at very low voltages.
In order to reduce the contact resistance at connection contacts, impurity layers can or must be removed before the connection. Ideally, such contact surfaces are refined.
We can offer the following coating options for this material:
Due to corrosion (e.g. oxidation), an impurity layer is formed on the contact surface, which increases the resistance. An impurity layer resistance disturbs, especially at very low voltages. Some of these thin layers are penetrated again when switching slightly higher voltages. This effect is called fritting and the required voltage is called the fritting voltage. Constant and/or low resistances are important because of the influence on the signals (for example electro-acoustic or measurement technology) or because of power losses. The choice of surface materials is also important for plugging or switching in a current-carrying state. In addition, mechanical loads have an effect on the surfaces. Both can easily destroy thin noble metal layers. Thus, the contact surface must be designed differently depending on the application.
In order to reduce the contact resistance at connection contacts, impurity layers can or must be removed before the connection. Known for this in particular is aluminum, which forms hard insulating oxide layers even after a short storage. It is used only for large conductor cross-sections and brushed free for making electrical contacts. Ideally, such contact surfaces are refined.
We can offer the following coating options for this material:
Due to corrosion (e.g. oxidation), an impurity layer is formed on the contact surface, which increases the resistance. An impurity layer resistance disturbs, especially at very low voltages. Some of these thin layers are penetrated again when switching slightly higher voltages. This effect is called fritting and the required voltage is called the fritting voltage. Constant and/or low resistances are important because of the influence on the signals (for example electro-acoustic or measurement technology) or because of power losses. The choice of surface materials is also important for plugging or switching in a current-carrying state. In addition, mechanical loads have an effect on the surfaces. Both can easily destroy thin noble metal layers. Thus, the contact surface must be designed differently depending on the application.
In order to reduce the contact resistance at connection contacts, impurity layers can or must be removed before the connection. Known for this in particular is aluminum, which forms hard insulating oxide layers even after a short storage. It is used only for large conductor cross-sections and brushed free for making electrical contacts. Ideally, such contact surfaces are refined.
We can offer the following coating options for this material:
A technically "mature" bimetallic composite material for use as an electrical connection in switching cabinets, switchgears and distribution boards.
An aluminum core is compressed with a sheath of copper, so that both form an inseparable unit. Thus, the positive properties of electrically high conductivity copper can be optimally combined with the light weight of aluminum.