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On the anisotropic scratching behavior of single crystalline copper at nanoscale

Jinxuan Zhu, Xia Li, Qinghua Zhou, Ramin Aghababaei

2022Tribology International23 citationsDOIOpen Access PDF

Abstract

Anisotropic material behavior raises some difficulties in characterizing and predicting the wear response of crystalline materials. A systematic set of nano-scratch crystal plasticity finite element simulations and experiments is performed to study the effect of crystal orientation and scratching direction on the wear resistance of single crystalline copper. Our results show that the scratching profile and wear volume are significantly influenced by the crystallographic orientation and scratching direction, suggesting a considerable anisotropy in the scratch response of crystalline copper. Quantifying the wear volume using Archard’s wear law shows that this anisotropy results in an orientation and scratching direction dependent wear coefficient. Alternatively, it is shown that a unique wear coefficient can be obtained for crystalline materials when one uses the scratching hardness in Archard’s wear law. This new finding may help to unify discrepant experimental and numerical wear observations and to advance physics-based wear laws without empirical coefficients.

Topics & Concepts

ScratchingScratchMaterials scienceAnisotropyCrystal plasticityCopperComposite materialOrientation (vector space)Nanoscopic scaleCrystal (programming language)Friction coefficientPlasticityMetallurgyGeometryNanotechnologyOpticsMathematicsComputer sciencePhysicsProgramming languageMetal and Thin Film MechanicsMicrostructure and mechanical propertiesAdvanced materials and composites
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