An approximate analytical solution for shear traction in partial reverse slip contacts

IF 2.8 3区 工程技术 Q2 MECHANICS
Vivek Anand , N. Hamza , H. Murthy
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引用次数: 0

Abstract

Singular integral equations solved to obtain a closed-form shear distribution under partial reverse slip conditions involve the integration of contact pressure over a sub-domain of the contact region. Pressure distribution for a nominal flat contact contains logarithmic terms, which pose difficulty in solving these integral equations. This paper provides a simpler approximation to the pressure distribution for a symmetrical nominally flat punch in contact with an elastic half-space to overcome this difficulty. Taylor series approximation has been used in the central flat and curved regions to approximate the nominally flat contact pressure distribution to a square flat (with sharp corners) and Hertzian pressure forms, respectively. The approximation is valid over the entire domain and for any ratio of contact length to flat length. The approximated pressure is used to evaluate the necessary singular integrals for the analytical solution for shear traction under partial reverse slip conditions while being subjected to bulk stress.
部分反向滑移接触中剪切牵引力的近似解析解
要求解部分反向滑移条件下的闭式剪切力分布的奇异积分方程,需要对接触区子域上的接触压力进行积分。名义平面接触的压力分布包含对数项,这给求解这些积分方程带来了困难。本文对与弹性半空间接触的对称名义平面冲头的压力分布提供了一个更简单的近似值,以克服这一困难。在中心平面和弯曲区域使用泰勒级数近似,将名义平面接触压力分布分别近似为方形平面(带尖角)和赫兹压力形式。该近似方法在整个区域内有效,并且适用于任何接触长度与平面长度之比。近似压力用于评估部分反向滑移条件下的剪切牵引力解析解所需的奇异积分,同时受到体应力的影响。
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来源期刊
CiteScore
5.50
自引率
9.40%
发文量
192
审稿时长
67 days
期刊介绍: The International Journal of Non-Linear Mechanics provides a specific medium for dissemination of high-quality research results in the various areas of theoretical, applied, and experimental mechanics of solids, fluids, structures, and systems where the phenomena are inherently non-linear. The journal brings together original results in non-linear problems in elasticity, plasticity, dynamics, vibrations, wave-propagation, rheology, fluid-structure interaction systems, stability, biomechanics, micro- and nano-structures, materials, metamaterials, and in other diverse areas. Papers may be analytical, computational or experimental in nature. Treatments of non-linear differential equations wherein solutions and properties of solutions are emphasized but physical aspects are not adequately relevant, will not be considered for possible publication. Both deterministic and stochastic approaches are fostered. Contributions pertaining to both established and emerging fields are encouraged.
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