L. Afferrante scite author profile

This paper summarizes the submissions to a recently announced contact-mechanics modeling challenge. The task was to solve a typical, albeit mathematically fully defined problem on the adhesion between nominally flat surfaces. The surface topography of the rough, rigid substrate, the elastic properties of the indenter, as well as the short-range adhesion between indenter and substrate, were specified so that diverse quantities of interest, e.g., the distribution of interfacial stresses at a given load or the mean gap as a function of load, could be computed and compared to a reference solution. Many different solution strategies were pursued, ranging from traditional asperity-based models via Persson theory and brute-force computational approaches, to real-laboratory experiments and all-atom molecular dynamics simulations of a model, in which the original assignment was scaled down to the atomistic scale. While each submission contained satisfying answers for at least a subset of the posed questions, efficiency, versatility, and accuracy differed between methods, the more precise methods being, in general, computationally more complex. The aim of this paper is to provide both theorists and experimentalists with benchmarks to decide which method is the most appropriate for a particular application and to gauge the errors associated with each one

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The influence of the statistical properties of self-affine surfaces in elastic contacts: A numerical investigation

Putignano¹,

Afferrante²,

Carbone³

et al. 2012

Journal of the Mechanics and Physics of Solids

111

107

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A new efficient numerical method for contact mechanics of rough surfaces

Putignano

Afferrante

Carbone

et al. 2012

International Journal of Solids and Structures

156

104

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Elastic Contact Mechanics of Randomly Rough Surfaces: An Assessment of Advanced Asperity Models and Persson’s Theory

et al. 2018

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Adhesion of Elastic Thin Films: Double Peeling of Tapes Versus Axisymmetric Peeling of Membranes

et al. 2013

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L. Afferrante

Meeting the Contact-Mechanics Challenge

The influence of the statistical properties of self-affine surfaces in elastic contacts: A numerical investigation

A new efficient numerical method for contact mechanics of rough surfaces

Elastic Contact Mechanics of Randomly Rough Surfaces: An Assessment of Advanced Asperity Models and Persson’s Theory

Adhesion of Elastic Thin Films: Double Peeling of Tapes Versus Axisymmetric Peeling of Membranes

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