Peridynamic homogenization of microstructures with orthotropic constituents in a finite element framework

C. Diyaroglu; E. Madenci; N. Phan

doi:10.1016/j.compstruct.2019.111334

Peridynamic homogenization of microstructures with orthotropic constituents in a finite element framework

C. Diyaroglu
, E. Madenci
, N. Phan

Aerospace and Mechanical Engineering

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

40 Scopus citations

Abstract

This study presents a peridynamic approach for performing homogenization of complex material microstructures by using the current element technology of ANSYS. The constituent materials can be orthotropic and arbitrary in number. The periodic boundary conditions are applied in a natural way without any constraint conditions. The construction of peridynamic governing equations and modeling procedure do not require any User Programmable Features (UPF) of ANSYS. The numerical results concern the verification of this approach by comparison with those reported in the literature, and its capability in the presence of matrix cracks and debonds along the fiber–matrix interface.

Original language	English (US)
Article number	111334
Journal	Composite Structures
Volume	227
DOIs	https://doi.org/10.1016/j.compstruct.2019.111334
State	Published - Nov 1 2019

Keywords

Crack
Finite element
Homogenization
Microstructure
Orthotropic
Peridynamics

ASJC Scopus subject areas

Ceramics and Composites
Civil and Structural Engineering

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10.1016/j.compstruct.2019.111334

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title = "Peridynamic homogenization of microstructures with orthotropic constituents in a finite element framework",

abstract = "This study presents a peridynamic approach for performing homogenization of complex material microstructures by using the current element technology of ANSYS. The constituent materials can be orthotropic and arbitrary in number. The periodic boundary conditions are applied in a natural way without any constraint conditions. The construction of peridynamic governing equations and modeling procedure do not require any User Programmable Features (UPF) of ANSYS. The numerical results concern the verification of this approach by comparison with those reported in the literature, and its capability in the presence of matrix cracks and debonds along the fiber–matrix interface.",

keywords = "Crack, Finite element, Homogenization, Microstructure, Orthotropic, Peridynamics",

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AU - Diyaroglu, C.

AU - Madenci, E.

AU - Phan, N.

PY - 2019/11/1

Y1 - 2019/11/1

N2 - This study presents a peridynamic approach for performing homogenization of complex material microstructures by using the current element technology of ANSYS. The constituent materials can be orthotropic and arbitrary in number. The periodic boundary conditions are applied in a natural way without any constraint conditions. The construction of peridynamic governing equations and modeling procedure do not require any User Programmable Features (UPF) of ANSYS. The numerical results concern the verification of this approach by comparison with those reported in the literature, and its capability in the presence of matrix cracks and debonds along the fiber–matrix interface.

AB - This study presents a peridynamic approach for performing homogenization of complex material microstructures by using the current element technology of ANSYS. The constituent materials can be orthotropic and arbitrary in number. The periodic boundary conditions are applied in a natural way without any constraint conditions. The construction of peridynamic governing equations and modeling procedure do not require any User Programmable Features (UPF) of ANSYS. The numerical results concern the verification of this approach by comparison with those reported in the literature, and its capability in the presence of matrix cracks and debonds along the fiber–matrix interface.

KW - Crack

KW - Finite element

KW - Homogenization

KW - Microstructure

KW - Orthotropic

KW - Peridynamics

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JO - Composite Structures

JF - Composite Structures

M1 - 111334

ER -

Peridynamic homogenization of microstructures with orthotropic constituents in a finite element framework

Abstract

Keywords

ASJC Scopus subject areas

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