Adhesive wear of a Ti6Al4V tribopair for a fast friction contact
Résumé
Friction tests at high sliding velocity are carried out by subjecting specimens to an apparent normal pressure of 110 MPa in the range of 40–64 m/s to reproduce severe conditions of contact between the rotating blades and the rotor in aircraft engines. Therefore, impacts of a projectile against a fixed sample are carried out for the investigation of a pair of Ti6Al4V materials. A mean coefficient of friction has been ascertained by two types of method: a tribometer device and an energetic approach. A slight sensitivity of the coefficient of friction with respect to the sliding velocity is observed. Postmortem analyses of samples reveal a decomposition of the frictional subsurface in multiple distinct layers: initial microstructure, severe plastic deformation (shear strain up to 16), phase transformation (View the MathML sourceT>980°C) and material transfer. A scenario of the adhesive wear mechanism is proposed in four steps.
Domaines
MatériauxOrigine | Fichiers produits par l'(les) auteur(s) |
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