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Adhesion-Induced Instability in Asperities

Bobji, MS and Xavier, Shijo and Jayadeep, UB and Jog, CS (2010) Adhesion-Induced Instability in Asperities. In: Tribology Letters, 39 (2). pp. 201-209.

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Adhesive forces between two approaching asperities will deform the asperities, and under certain conditions this will result in a sudden runaway deformations leading to a jump-to-contact instability. We present finite element-based numerical studies on adhesion-induced deformation and instability in asperities. We consider the adhesive force acting on an asperity, when it is brought near a rigid half-space, due to van der Waals interaction between the asperity and the half-space. The adhesive force is considered to be distributed over the volume of the asperity (body force), thus resulting in more realistic simulations for the length scales considered. Iteration scheme based on a ``residual stress update'' algorithm is used to capture the effect of deformation on the adhesion force, and thereby the equilibrium configuration and the corresponding force. The numerical results are compared with the previous approximate analytical solutions for adhesion force, deformation of the asperity and adhesion-induced mechanical instability (jump-to-contact). It is observed that the instability can occur at separations much higher,and could possibly explain the higher value of instability separation observed in experiments. The stresses in asperities, particularly in case of small ones, are found to be high enough to cause yielding before jump -to-contact. The effect of roughness is considered by modeling a spherical protrusion on the hemispherical asperity.This small-scale roughness at the tip of the asperities is found to control the deformation behavior at small separations, and hence are important in determining the friction and wear due to the jump-to-contact instability.

Item Type: Journal Article
Publication: Tribology Letters
Publisher: Springer
Additional Information: Copyright of this article belongs to Springer.
Keywords: Surface roughness;Adhesion;Nanotribology;Jump-to-contact instability
Department/Centre: Division of Mechanical Sciences > Mechanical Engineering
Date Deposited: 09 Aug 2010 11:53
Last Modified: 19 Sep 2010 06:13
URI: http://eprints.iisc.ac.in/id/eprint/31200

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