Dynamic Fracture of Piezoelectric Materials: Solution of Time-Harmonic Problems via BIEM by Petia DinevaDynamic Fracture of Piezoelectric Materials: Solution of Time-Harmonic Problems via BIEM by Petia Dineva

Dynamic Fracture of Piezoelectric Materials: Solution of Time-Harmonic Problems via BIEM

byPetia Dineva, Dietmar Gross, Ralf Müller

Hardcover | February 14, 2014

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Dynamic Fracture of Piezoelectric Materialsfocuses on the Boundary Integral Equation Method as an efficient computational tool. The presentation of the theoretical basis of piezoelectricity is followed by sections on fundamental solutions and the numerical realization of the boundary value problems. Two major parts of the book are devoted to the solution of problems in homogeneous and inhomogeneous solids. The book includes contributions on coupled electro-mechanical models, computational methods, its validation and the simulation results, which reveal different effects useful for engineering design and practice. The book is self-contained and well-illustrated, and it serves as a graduate-level textbook or as extra reading material for students and researchers.

Title:Dynamic Fracture of Piezoelectric Materials: Solution of Time-Harmonic Problems via BIEMFormat:HardcoverDimensions:249 pagesPublished:February 14, 2014Publisher:Springer-Verlag/Sci-Tech/TradeLanguage:English

The following ISBNs are associated with this title:

ISBN - 10:3319039601

ISBN - 13:9783319039602

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Table of Contents

1 Introduction

Part I Theoretical basics
2 Piezoelectric materials
3 Fundamental solutions
4 Numerical realization by BIEM

Part II Homogeneous PEM
5 Steady-state problems in a cracked anisotropic domain
6 2D wave scattering by cracks in a piezoelectric plane
7 Piezoelectric cracked finite solids under time-harmonic loading
8 Dynamic crack interaction in piezoelectric and anisotropic solids
9 Different electric boundary conditions

Part III Functionally graded PEM

10 In-plane crack problems in functionally graded piezoelectric solids
11 Functionally graded piezoelectric media with a single anti-plane crack
12 Multiple anti-plane cracks in quadratically inhomogeneous piezoelectric finite solids
13 Anti-plane cracks in exponentially inhomogeneous finite piezoelectric solid
14 Exponentially inhomogeneous piezoelectric solid with a circular anti-plane hole
15 Anti-plane dynamic crack-hole interaction in a functionally graded piezoelectric medium

Index

Editorial Reviews

From the book reviews:"The book is heavily oriented toward applications with technological interest­-piezoelectric materials are, in fact, largely used to construct resonators, sensors, and actuators-and as such it can surely be useful for readers interested in pursuing similar analyses or extending them to more intricate cases than those considered in the various chapters." (Paolo Maria Mariano, Mathematical Reviews, November, 2014)