Investigating the effects of microstructure on the wear mechanisms in lamellar cast irons via microscratch tests

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TitreInvestigating the effects of microstructure on the wear mechanisms in lamellar cast irons via microscratch tests
Publication TypePublication International
Year of Publication2013
AuthorsMendas, M, Benayoun, S
Mots-clésAttack angle, Cast iron, Microstructure, Scratch test
Abstract

This work investigates the effects of microstructure on the wear mechanisms in lamellar cast irons using a microscratch test. Various applied loads and indenter geometries were utilised. The results indicate that the surface damage depends on the indenter geometry, the penetration depth, the orientation and the depth of the graphiteflakes. Increasing the applied load and the attack angle increases the friction coefficient, the tangential force and itsfluctuation. Beyond a certain load, the friction coefficient remains
nearly constant. The proposed schemes explain the role played by both the matrix and graphite in the wear process

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