Andreas Ricoeur scite author profile

This paper deals with numerical methods, developed to analyze plane stationary cracks in piezoelectric structures under dynamic electromechanical loading conditions. In the first part an explicit finite element scheme is presented, which has been developed to solve the transient coupled electromechanical boundary value problem. A special technique is implemented in the algorithm, accounting for the limited electrical permeability of the crack. In contrast to well known algorithms for static calculations it does not require any iteration. In order to calculate dynamic stress and electric displacement intensity factors for arbitrary crack configurations, the interaction integral is generalized for electromechanical problems. The efficient applicability and the high accuracy of the implementations are demonstrated by numerical examples, giving insight into several effects occuring with dynamically loaded cracks in piezoelectrics.

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Influence of electric fields on the fracture of ferroelectric ceramics

Ricoeur

Kuna

2003

Journal of the European Ceramic Society

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A condensed microelectromechanical approach for modeling tetragonal ferroelectrics

Lange

Ricoeur

2015

International Journal of Solids and Structures

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Anisotropic fracture properties and crack path prediction in glass and cellulose fiber reinforced composites

Judt

Zarges

Ricoeur

et al. 2018

Engineering Fracture Mechanics

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Deflecting mode-I cracks in anisotropic materials

Judt

Zarges

Feldmann

et al. 2019

Mechanics of Materials

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Andreas Ricoeur

Finite Element Techniques for Dynamic Crack Analysis in Piezoelectrics

Influence of electric fields on the fracture of ferroelectric ceramics

A condensed microelectromechanical approach for modeling tetragonal ferroelectrics

Anisotropic fracture properties and crack path prediction in glass and cellulose fiber reinforced composites

Deflecting mode-I cracks in anisotropic materials

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