A study of the evolution of wear through time, as well as for specific loads and contact temperatures, based on extensive experimental testing. We attempted to offer a graphical analysis of the dry linear contact for composite materials reinforced with glass fibres, as well as the impact of sliding speed, load, and friction coefficient in this paper. The wear volume was computed using the Archard relationship after perpendicular loads, contact temperature, and metal surface wear were observed. The breadth of a trace can be estimated in three places using the Archard relationship. Numerous experiments were carried out in order to determine the wear of the metal surface, the contact temperature, and the friction coefficient value. The friction coefficient obtained at the surface of the steel samples is higher than that found for the composite material and the C 120 steel samples. This is owing to the fact that the two types of steel have different hardnesses. It's possible to see a link between the progress of the wear process and its reliance on contact temperature and friction coefficient.
Author (s) Details
Dorin Rus
Department of Mechanical, University of Civil Engineering, Bucharest, Postcode 050153, Romania.
Virgil Florescu
Department of Mechanical, University of Civil Engineering, Bucharest, Postcode 050153, Romania.
Florin Bausic
Department of Mechanical, University of Civil Engineering, Bucharest, Postcode 050153, Romania.
Robert Ursache
Department of Mechanical, University of Civil Engineering, Bucharest, Postcode 050153, Romania.
Anca Sasu
Department of Mechanical, University of Civil Engineering, Bucharest, Postcode 050153, Romania.
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