Riemann–Hilbert approach-based analytical solutions for strip saturated two unequal collinear cracks in piezoelectric media

IF 0.4 Q4 MATERIALS SCIENCE, CHARACTERIZATION & TESTING

Strength Fracture and Complexity Pub Date : 2021-04-27 DOI:10.3233/SFC-200261

S. Singh, K. Sharma

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引用次数: 0

Abstract

The objective of the work is to derive analytical solutions based on the Riemann–Hilbert (R–H) approach for semipermeable strip saturated two unequal collinear cracks in arbitrary polarized piezoelectric media. We particularly consider the influence of far field electromechanical loadings, poling direction and different crack-face boundary conditions. The problem is mathematically formulated into a set of non-homogeneous R–H problems in terms of complex potential functions (related to field components) using complex variable and extended Stroh formalism approach. After solving these equations, explicit solutions are obtained for the involved unknown complex potential functions and hence, the stress and electric displacement components at any point within the domain. Furthermore, after employing standard limiting conditions, explicit expressions for some conventional fracture parameters such as saturated zone lengths (in terms of nonlinear equations), local stress intensity factors and crack opening displacement are obtained. Numerical studies are presented for the PZT-4H material to analyze the effects of prescribed electromechanical loadings, inter-cracks distance, crack-face conditions and poling direction on the defined fracture parameters.

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基于Riemann-Hilbert方法的压电介质中带饱和两个不等共线裂纹的解析解

本文的目的是基于Riemann-Hilbert (R-H)方法，推导出任意极化压电介质中半透条状饱和两不等共线裂纹的解析解。我们特别考虑了远场机电载荷、极点方向和不同裂纹面边界条件的影响。利用复变量和扩展的Stroh形式化方法，将该问题在数学上表述为一组关于复势函数(与场分量相关)的非齐次R-H问题。求解这些方程后，得到了所涉及的未知复势函数的显式解，从而得到了域内任意点的应力和电位移分量。在采用标准极限条件后，得到了饱和区长度(非线性方程)、局部应力强度因子、裂纹张开位移等常规断裂参数的显式表达式。对PZT-4H材料进行了数值研究，分析了规定的机电载荷、裂纹间距、裂纹面条件和极化方向对定义断裂参数的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Strength Fracture and Complexity MATERIALS SCIENCE, CHARACTERIZATION & TESTING-

CiteScore

1.30

自引率

0.00%

发文量

期刊介绍： Strength, Fracture and Complexity: An International Journal is devoted to solve the strength and fracture unifiedly in non linear and systematised manner as complexity system. An attempt is welcome to challenge to get the clue to a new paradigm or to studies by fusing nano, meso microstructural, continuum and large scaling approach. The concept, theoretical and/or experimental, respectively are/is welcome. On the other hand the presentation of the knowledge-based data for the aims is welcome, being useful for the knowledge-based accumulation. Also, deformation and fracture in geophysics and geotechnology may be another one of interesting subjects, for instance, in relation to earthquake science and engineering.