Method of making electrical contact material
First Claim
1. A method for making electrical contact materials comprising the steps of:
- providing a composite metal member having a first electrically conductive metal layer with a first external surface portion as part of said member and a second different easily-brazeable electrically-conductive metal layer metallurgically bonded to the first layer with a second external surface portion as part of said member, the first metal layer selected to be internally oxidizable to form metal oxide particles dispersed in the first metal layer when subjected to selected oxidizing conditions, the second metal layer selected to form a barrier to internal oxidizing at the second surface portion when subjected to said selected oxidizing conditions, said selected oxidizing conditions being the required time and temperature in an oxygen atmosphere to internally oxidize the metal in the first layer into metal oxide particles dispersed in the metal layer;
subjecting the composite member to said selected oxidizing conditions, thereby internally oxidizing substantially the entire first metal layer through the first external surface portion while forming the barrier to internal oxidizing in the second metal layer on the second external surface portion, said internal oxidizing of the first layer occurring substantially only through said first external surface portion and not also the second external surface portion so as to not provide any centrally located depletion zone in the first layer; and
removing the barrier from the second external surface portion of the metal member to provide contact materials with an easily-weldable mounting surface.
11 Assignments
0 Petitions
Accused Products
Abstract
An electrical contact material having metal oxide particles dispersed in a silver metal matrix and having an easily brazeable backing layer is made free of internal oxide depletion zones by bonding a conventional internally oxidizable silver alloy to a thin backing layer of a second silver alloy to form a composite metal. The first silver alloy is selected to be internally oxidizable under selected oxidizing conditions. The second alloy is selected so that under the selected oxidizing conditions an oxygen-impenetrable barrier is quickly established on the surfaces of the composite formed by the second alloy. In that way, the first alloy layer is forced to be internally oxidized unidirectionally from the opposite surface of the composite to form the desired metal oxide dispersal extending substantially throughout the first alloy layer free of any internal oxide depletion zone in the first layer. An external scale that prevented internal oxidation from proceeding from the second layer surface is then easily removed from the remaining unoxidized silver alloy providing a means for attachment of the contact material by bonding or brazing.
121 Citations
7 Claims
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1. A method for making electrical contact materials comprising the steps of:
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providing a composite metal member having a first electrically conductive metal layer with a first external surface portion as part of said member and a second different easily-brazeable electrically-conductive metal layer metallurgically bonded to the first layer with a second external surface portion as part of said member, the first metal layer selected to be internally oxidizable to form metal oxide particles dispersed in the first metal layer when subjected to selected oxidizing conditions, the second metal layer selected to form a barrier to internal oxidizing at the second surface portion when subjected to said selected oxidizing conditions, said selected oxidizing conditions being the required time and temperature in an oxygen atmosphere to internally oxidize the metal in the first layer into metal oxide particles dispersed in the metal layer; subjecting the composite member to said selected oxidizing conditions, thereby internally oxidizing substantially the entire first metal layer through the first external surface portion while forming the barrier to internal oxidizing in the second metal layer on the second external surface portion, said internal oxidizing of the first layer occurring substantially only through said first external surface portion and not also the second external surface portion so as to not provide any centrally located depletion zone in the first layer; and
removing the barrier from the second external surface portion of the metal member to provide contact materials with an easily-weldable mounting surface. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification