High plasticity under high pressure and temperature characterises thermoplastic materials with glass fibre, and they can be machined to revert to their original shape after being cast. Because the stresses are transmitted through the glass fibres, these thermoplastic materials are biphasic, consisting of a polymer mass and reinforcement components such as glass fibres, in order to provide desirable mechanical qualities. We attempted to present the influence of metal surface wear and contact temperature on the evolution of sliding speed, normal load, and friction coefficient in this study. We conducted a number of experiments that revealed the relationship between load and wear in respect to the friction coefficient. Temperature, sliding speed, and contact pressure were all simulated using a dry linear friction couple with a wide range of loads and speeds. The theoretical case and the experimental results resulting from the employment of the "wear imprint method" for the volume and depth of wear have been linked.
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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