Journal
TRIBOLOGY INTERNATIONAL
Volume 159, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.triboint.2021.106939
Keywords
Abrasive wear; Asperity fracture; Wear modeling; Linear elastic fracture mechanics
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Funding
- Innovation Fund Denmark (Innovationsfonden) [8090-00010B]
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Fracture of interlocking asperities during sliding contact significantly influences the friction and wear behavior of brittle materials. This study investigates the failure of isolated asperities under lateral contacting force and develops an analytical model to predict the critical force at the onset of asperity fracture. The developed model holds promise for developing physics-based friction and wear models for brittle solids.
Fracture of interlocking asperities during sliding contact plays a central role in determining friction and wear of brittle materials. The local force to break surface asperities and subsurface crack propagation directly affect the frictional force, wear rate and evolution of surface roughness. Here, we study the fracture failure of an isolated asperity under a lateral contacting force using a systematic set of experiments and numerical simulations. Combining the generalized elastic fracture mechanics and the Euler-Bernoulli beam theory, we also develop an analytical model to predict the critical force at the onset of asperity fracture as a function of the asperity?s shape and material properties. The developed model can be used to develop physics-based friction and wear models for brittle solids.
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