Features of structure change in the contact layer of non-ferrous metals under the influence of electric current at dry sliding against steel 1045

Dry sliding of copper, nickel, titanium and a nitinol alloy (NiTi) against a steel counterbody is carried out under the influence of high-density electric current. It is shown that the surface layer of these metals undergoes phase transformation and forms a tribolayer. It is noted that the high stre...

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Hauptverfasser: Fadin, V. V., Aleutdinova, M. I., Pochivalov, Yu. I.
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Aleutdinova, M. I.
Pochivalov, Yu. I.
description Dry sliding of copper, nickel, titanium and a nitinol alloy (NiTi) against a steel counterbody is carried out under the influence of high-density electric current. It is shown that the surface layer of these metals undergoes phase transformation and forms a tribolayer. It is noted that the high strength of the tribolayer corresponds to high contact electrical conductivity and to low wear intensity. The tribolayer of a nitinol alloy has a weak connection with the basic material. This factor, as well as low thermal conductivity and the presence of a superstructure of the nitinol alloy, leads to its rapid deterioration.
doi_str_mv 10.1063/1.5084460
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source AIP Journals Complete
subjects Electric contacts
Electric currents
Electrical resistivity
Ferrous metals
Intermetallic compounds
Nickel base alloys
Nickel titanides
Nitinol alloys
Nonferrous metals
Phase transitions
Shape memory alloys
Sliding
Superstructures
Surface layers
Thermal conductivity
Titanium
title Features of structure change in the contact layer of non-ferrous metals under the influence of electric current at dry sliding against steel 1045
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