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Main Authors: Li, Yanxin, Pan, Bo, Tian, Yun, Ma, Lili, Menga, Nicola, Zhang, Xin
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2412.02558
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author Li, Yanxin
Pan, Bo
Tian, Yun
Ma, Lili
Menga, Nicola
Zhang, Xin
author_facet Li, Yanxin
Pan, Bo
Tian, Yun
Ma, Lili
Menga, Nicola
Zhang, Xin
contents We study the frictional adhesive contact of a rigid insulating sphere sliding past a multiferroic coating deposed onto a rigid substrate, based on the hybrid element method (HEM). The adhesion behavior is described based on the Maugis-Dugdale (MD) model. The adhesion-driven conjugate gradient method (AD-CGM) is employed to calculate the distribution of unknown pressures, while the discrete convolution-fast Fourier transform (DC-FFT) is utilized to compute the deformations, surface electric and magnetic potentials as well as the subsurface stresses, electric displacements, and magnetic inductions. We found that the coating thickness affect the contact stiffness and the interplay between friction and adhesion. More importantly, friction and gap-dependent MD adhesion affects elastic, electric, and magnetic behavior of the interface, breaking the symmetry between leading and trailing edges behaviors in all the investigated fields. Indeed, increasing the friction coefficient, the contact shape is no longer circular, the pressure distribution shifts towards the leading edge, the electric/magnetic surface potentials distributions sharpen at the leading edge, and the subsurface stress fields concentrates at the trailing edges.
format Preprint
id arxiv_https___arxiv_org_abs_2412_02558
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Frictional Adhesive Contact of Multiferroic Coatings Based on the Hybrid Element Method
Li, Yanxin
Pan, Bo
Tian, Yun
Ma, Lili
Menga, Nicola
Zhang, Xin
Soft Condensed Matter
We study the frictional adhesive contact of a rigid insulating sphere sliding past a multiferroic coating deposed onto a rigid substrate, based on the hybrid element method (HEM). The adhesion behavior is described based on the Maugis-Dugdale (MD) model. The adhesion-driven conjugate gradient method (AD-CGM) is employed to calculate the distribution of unknown pressures, while the discrete convolution-fast Fourier transform (DC-FFT) is utilized to compute the deformations, surface electric and magnetic potentials as well as the subsurface stresses, electric displacements, and magnetic inductions. We found that the coating thickness affect the contact stiffness and the interplay between friction and adhesion. More importantly, friction and gap-dependent MD adhesion affects elastic, electric, and magnetic behavior of the interface, breaking the symmetry between leading and trailing edges behaviors in all the investigated fields. Indeed, increasing the friction coefficient, the contact shape is no longer circular, the pressure distribution shifts towards the leading edge, the electric/magnetic surface potentials distributions sharpen at the leading edge, and the subsurface stress fields concentrates at the trailing edges.
title Frictional Adhesive Contact of Multiferroic Coatings Based on the Hybrid Element Method
topic Soft Condensed Matter
url https://arxiv.org/abs/2412.02558