Interfacial debonding propagation in orthotropic layered plates with a compliant internal layer

Shai Feldfogel; Oded Rabinovitch

doi:10.1016/j.engfracmech.2018.02.005

Interfacial debonding propagation in orthotropic layered plates with a compliant internal layer

Shai Feldfogel
, Oded Rabinovitch

Civil and Environmental Engineering

Technion - Israel Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

The failure of layered plates with internal compliant layers is associated with interfacial debonding mechanisms, whose geometrically irregular propagation is governed by a three-dimensional stress state. This paper faces this challenge by developing a multi-layered, high-order plate theory and a triangular finite element that incorporate cohesive interfaces. The formulation tracks the evolution of two-dimensional debonding areas at the layered plate's interfaces. The model is used to study debonding mechanisms in a narrow plate with initial delaminations. Attention is given to the unstable response along equilibrium paths, the evolving irregular debonding front contours, and their impact on the structural resilience.

Original language	English
Pages (from-to)	77-97
Number of pages	21
Journal	Engineering Fracture Mechanics
Volume	192
DOIs	https://doi.org/10.1016/j.engfracmech.2018.02.005
State	Published - 1 Apr 2018

Keywords

Cohesive zone models
Debonding propagation
High order plate theory
Interfacial debonding
Layered plates

ASJC Scopus subject areas

General Materials Science
Mechanics of Materials
Mechanical Engineering

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10.1016/j.engfracmech.2018.02.005

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title = "Interfacial debonding propagation in orthotropic layered plates with a compliant internal layer",

abstract = "The failure of layered plates with internal compliant layers is associated with interfacial debonding mechanisms, whose geometrically irregular propagation is governed by a three-dimensional stress state. This paper faces this challenge by developing a multi-layered, high-order plate theory and a triangular finite element that incorporate cohesive interfaces. The formulation tracks the evolution of two-dimensional debonding areas at the layered plate's interfaces. The model is used to study debonding mechanisms in a narrow plate with initial delaminations. Attention is given to the unstable response along equilibrium paths, the evolving irregular debonding front contours, and their impact on the structural resilience.",

keywords = "Cohesive zone models, Debonding propagation, High order plate theory, Interfacial debonding, Layered plates",

author = "Shai Feldfogel and Oded Rabinovitch",

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AU - Rabinovitch, Oded

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N2 - The failure of layered plates with internal compliant layers is associated with interfacial debonding mechanisms, whose geometrically irregular propagation is governed by a three-dimensional stress state. This paper faces this challenge by developing a multi-layered, high-order plate theory and a triangular finite element that incorporate cohesive interfaces. The formulation tracks the evolution of two-dimensional debonding areas at the layered plate's interfaces. The model is used to study debonding mechanisms in a narrow plate with initial delaminations. Attention is given to the unstable response along equilibrium paths, the evolving irregular debonding front contours, and their impact on the structural resilience.

AB - The failure of layered plates with internal compliant layers is associated with interfacial debonding mechanisms, whose geometrically irregular propagation is governed by a three-dimensional stress state. This paper faces this challenge by developing a multi-layered, high-order plate theory and a triangular finite element that incorporate cohesive interfaces. The formulation tracks the evolution of two-dimensional debonding areas at the layered plate's interfaces. The model is used to study debonding mechanisms in a narrow plate with initial delaminations. Attention is given to the unstable response along equilibrium paths, the evolving irregular debonding front contours, and their impact on the structural resilience.

KW - Cohesive zone models

KW - Debonding propagation

KW - High order plate theory

KW - Interfacial debonding

KW - Layered plates

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DO - 10.1016/j.engfracmech.2018.02.005

M3 - مقالة

SN - 0013-7944

VL - 192

SP - 77

EP - 97

JO - Engineering Fracture Mechanics

JF - Engineering Fracture Mechanics

ER -

Interfacial debonding propagation in orthotropic layered plates with a compliant internal layer

Abstract

Keywords

ASJC Scopus subject areas

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