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HRSTKA, M. PROFANT, T. KOTOUL, M.
Original Title
Electro-mechanical singularities of piezoelectric bi-material notches and cracks
Type
journal article in Web of Science
Language
English
Original Abstract
The paper aims to carefully investigate an asymptotic in-plane problem of bi-material sharp notches with various geometry and interface cracks in several generally monoclinic piezoelectric bi-materials using the expanded Lekhnitskii-Eshelby-Stroh formalism. A special attention is paid to the change of the asymptotic solution connected with the transition of a very closed notch into an interface crack. Also the influence of arbitrary oriented poling directions upon asymptotic solution is investigated. Four pair-combinations PZT-5H/BaTiO3, PZT-5H/PZT-6B, PZT-5H/PZT-7A and PZT-6B/PZT-7A as representatives of the so-called epsilon-class of bi-materials and six pair-combinations PZT-4/BaTiO3, PZT-4/PZT-5H, PZT-4/PZT-6B, PZT-4/PZT-7A, PZT-6B/BaTiO3, and PZT-7A/BaTiO(3 )as representatives of the kappa-class of bi-materials are analysed. It is shown that the bi-material classification into epsilon-class and kappa-class introduced by Ou and Wu (2003) for interface cracks cannot be applied to a bi-material notch with a geometry characterized by an arbitrary angle. Ou and Wu bi-material classification also fails for interface cracks if one of the poling angles differs from 90 degrees. The two-state integral derived from Beth's reciprocal principle for piezoelectric bi-materials is used to evaluate general stress intensity factors (GSIFs) for various piezoelectric bi-materials and notch configurations. The accuracy of GSIFs calculations is tested by comparing the asymptotic solutions with the results obtained by finite element method using a very fine mesh.
Keywords
Expanded Lekhnitskii-Eshelby-Stroh formalism; Piezoelectricity; Bi-material notch; Interface crack; H-integral; Generalized stress intensity factor
Authors
HRSTKA, M.; PROFANT, T.; KOTOUL, M.
Released
17. 5. 2019
Publisher
Elsevier
ISBN
0013-7944
Periodical
Engineering Fracture Mechanics
Year of study
216
Number
1
State
United Kingdom of Great Britain and Northern Ireland
Pages from
Pages to
23
Pages count
URL
https://www.sciencedirect.com/science/article/pii/S0013794419303169
BibTex
@article{BUT157676, author="Miroslav {Hrstka} and Tomáš {Profant} and Michal {Kotoul}", title="Electro-mechanical singularities of piezoelectric bi-material notches and cracks", journal="Engineering Fracture Mechanics", year="2019", volume="216", number="1", pages="1--23", doi="10.1016/j.engfracmech.2019.05.016", issn="0013-7944", url="https://www.sciencedirect.com/science/article/pii/S0013794419303169" }