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Phase-field analysis for brittle fracture in ferroelectric materials with flexoelectric effect

Chang Liu, Yu Tan, Yong Zhang, Zhaoyi Liu, Takahiro Shimada, Xiangyu Li, Jie Wang

2024Computer Methods in Applied Mechanics and Engineering17 citationsDOIOpen Access PDF

Abstract

Understanding the nature of brittle failure in ferroelectric materials is essential, but difficult due to the complex interaction between mechanical and electrical concentrated fields near the crack tip. In this work, an extended phase-field model incorporating multiple order parameters is constructed to analyze the coupled evolution of fracture and domain behavior in ferroelectric materials . The strain gradient is incorporated into the governing equations to evaluate the impact of the flexoelectric effect during the crack propagation process. Our advanced phase-field model demonstrated that, with the consideration of the flexoelectric effect , both the crack extension rate and crack path are related to the initial polarization direction . This phenomenon is associated with the eigenstrain induced by the flexoelectric effect. This study provides in-depth insight into the fracture behavior of ferroelectric materials . The developed model framework can also be employed to investigate electromechanical coupling failures in more complex ferroelectric structures.

Topics & Concepts

FerroelectricityBrittle fractureMaterials scienceBrittlenessFracture (geology)FlexoelectricityField (mathematics)Composite materialStructural engineeringCondensed matter physicsEngineeringMathematicsPhysicsDielectricPiezoelectricityPure mathematicsOptoelectronicsNumerical methods in engineeringNonlocal and gradient elasticity in micro/nano structuresComposite Material Mechanics
Phase-field analysis for brittle fracture in ferroelectric materials with flexoelectric effect | Litcius