Adhesive wear mechanisms uncovered by atomistic simulations 被引量：6

Adhesive wear mechanisms uncovered by atomistic simulations

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摘要 In this review, we discuss our recent advances in modeling adhesive wear mechanisms using coarse-grained atomistic simulations. In particular, we present how a model pair potential reveals the transition from ductile shearing of an asperity to the formation of a debris particle. This transition occurs at a critical junction size, which determines the particle size at its birth. Atomistic simulations also reveal that for nearby asperities, crack shielding mechanisms result in a wear volume proportional to an effective area larger than the real contact area. As the density of microcontacts increases with load, we propose this crack shielding mechanism as a key to understand the transition from mild to severe wear. We conclude with open questions and a road map to incorporate these findings in mesoscale continuum models. Because these mesoscale models allow an accurate statistical representation of rough surfaces, they provide a simple means to interpret classical phenomenological wear models and wear coefficients from physics-based principles. In this review, we discuss our recent advances in modeling adhesive wear mechanisms using coarse-grained atomistic simulations. In particular, we present how a model pair potential reveals the transition from ductile shearing of an asperity to the formation of a debris particle. This transition occurs at a critical junction size, which determines the particle size at its birth. Atomistic simulations also reveal that for nearby asperities, crack shielding mechanisms result in a wear volume proportional to an effective area larger than the real contact area. As the density of microcontacts increases with load, we propose this crack shielding mechanism as a key to understand the transition from mild to severe wear. We conclude with open questions and a road map to incorporate these findings in mesoscale continuum models. Because these mesoscale models allow an accurate statistical representation of rough surfaces, they provide a simple means to interpret classical phenomenological wear models and wear coefficients from physics-based principles.

作者 Jean-Fran?ois MOLINARI Ramin AGHABABAEI Tobias BRINK Lucas FRéROT Enrico MILANESE

机构地区 Civil Engineering Department Department of Engineering-Mechanical Engineering

出处《Friction》 SCIE CSCD 2018年第3期245-259,共15页 摩擦（英文版）

关键词粗糙粒度粘合剂摩擦学理论研究 adhesive wear molecular dynamics continuum mechanics

分类号 TQ432.2 [化学工程] TH117.1 [机械工程—机械设计及理论]

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Adhesive wear mechanisms uncovered by atomistic simulations 被引量：6

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