期刊
INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES
卷 229, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ijmecsci.2022.107512
关键词
Nanoindentation; Surface stress; Hankel transform; Load -displacement relationship
资金
- Research Foundation of Chongqing University of Science and Technology [182101053]
This study investigates the effect of surface stress on the indentation deformation of an elastic half-space. By using rigid axisymmetric indenters and an alternative condition to determine the contact radius, the numerical results show the combined effects of surface stress and Poisson's ratio on the load-displacement relationship for elastic half-space indentation. Surface stress significantly affects shear stress and moderately affects normal stress in the direction perpendicular to the surface.
Nanoindentation technique, which is based on Hertzian contact theory and Sneddon's solutions for the contact between a rigid indenter and an elastic half-space, has been widely investigated due to its practical importance in localized mechanical test of submicron structures. However, both the Hertzian contact theory and Sneddon's solutions do not take into account the contribution of surface stress to contact deformation. In this work, we study the effect of surface stress without the out-of-plane term on the indentation deformation of an elastic halfspace by rigid, axisymmetric indenters, including flat-ended cylindrical, conical and spherical indenters. In contrast to classical theories, which are based on physically admissible condition of finite normal stress at contact edge, an alternative condition of geometrical continuity at contact edge is used to determine the contact radius. The numerical results reveal the combinational effects of the surface stress and Poisson's ratio on the loaddisplacement relationship for the indentation of the elastic half-space. The surface stress causes significant change in shear stress and modest variation in normal stress in the direction normal to the surface of the elastic half-space. The numerical method used in this work offers a feasible approach to study the effect of surface stress on the contact deformation of elastic substrates.
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