[HTML][HTML] Evolution of the real contact area of self-affine non-Gaussian surfaces

TS Sabino, AMC Carneiro, RP Carvalho… - International Journal of …, 2023 - Elsevier
International Journal of Solids and Structures, 2023Elsevier
The impact of non-Gaussian height distribution on the real contact area evolution of elastic,
frictionless and non-adhesive contact is studied. The Weibull probability function is used to
model the height distribution, as it can capture surfaces of practical relevance. The set of
variables needed to parametrise the problem is discussed, including the shape parameter of
the height distribution, the topography's wavelength ratio and the Hurst exponent. As the
topographies become more non-Gaussian, a significant deviation from the Gaussian case is …
Abstract
The impact of non-Gaussian height distribution on the real contact area evolution of elastic, frictionless and non-adhesive contact is studied. The Weibull probability function is used to model the height distribution, as it can capture surfaces of practical relevance. The set of variables needed to parametrise the problem is discussed, including the shape parameter of the height distribution, the topography’s wavelength ratio and the Hurst exponent. As the topographies become more non-Gaussian, a significant deviation from the Gaussian case is observed. Moreover, the spectral properties show a distinct effect on different non-Gaussian surfaces and the dependency on Nayak’s parameter is not inherited. A power-law evolution of the real contact area is found to fit the numerical results obtained with the boundary element method precisely. Finally, two semi-analytical asperity-based models are compared with numerical results, using the statistics of artificially generated topographies. The qualitative behaviour predicted with the numerical simulations is captured.
Elsevier
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