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MM: Fachverband Metall- und Materialphysik
MM 5: Mechanical Properties
MM 5.7: Vortrag
Montag, 1. April 2019, 12:00–12:15, H46
Adhesive wear mechanisms in the presence of weak interfaces — •Tobias Brink and Jean-François Molinari — Civil Engineering Institute and Institute of Materials Science and Engineering, EPFL, Lausanne, Switzerland
Despite the relevance of wear in many engineering applications, our
understanding of the connection between mechanisms at the nanoscale
and the observed wear rates of contacting parts at the macroscale
remains limited. Recent work in our group has therefore focused on
physics-based models of adhesive wear mechanisms, identifying a
material-dependent critical length scale for wear particle formation
[1]. Upscaling of these findings, though, still remains challenging
[2]. One problem is that only strong adhesive bonds between contacting
solids were considered. In the present contribution, we therefore
extent this framework to include weaker interfaces, which are expected
at typical contacts due to lattice mismatch, surface passivation, or
lubrication. We use atomistic simulations on an amorphous model
material to propose a mechanism map based on material properties and
local contact geometry for wear particle formation and surface damage
at the single-asperity scale. Our results imply that the local
slopes of rough surfaces govern a transition from asperity collisions
with plastic damage and wear particle formation at high roughness to
slip without significant damage for flatter surfaces, comparable to a
run-in process.
[1] Aghababaei, Warner, Molinari, Nat. Commun. 7, 11816 (2016)
[2] Frérot, Aghababaei, Molinari, JMPS 114, 172 (2018)