Finite element analysis of deformation behavior and local damages in Al matrix-SiC particulate composite microstructures

Şafak Yilmaz; Ahmet Aran

doi:10.4028/www.scientific.net/msf.217-222.1121

Finite element analysis of deformation behavior and local damages in Al matrix-SiC particulate composite microstructures

Şafak Yilmaz^*, Ahmet Aran

^*Corresponding author for this work

Department of Mechanical Engineering

Istanbul Technical University

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

1 Citation (Scopus)

Abstract

Stress-strain behavior of silicon carbide particulate reinforced aluminum composites and stress localization which initiate damage in their microstructure were analyzed using finite elements method. A FORTRAN code was developed. The composite was assumed to be 3D infinite periodic array of spherical particles embedded in the matrix. Comparison of numerical results with published experimental data showed that the approach used is a very reliable tool to analyze the mechanical behavior of metal matrix composites. The conclusions drawn contain valuable information for the optimization and the design of particle reinforced composites.

Original language	English
Pages (from-to)	1121-1126
Number of pages	6
Journal	Materials Science Forum
Volume	217-222
Issue number	PART 2
DOIs	https://doi.org/10.4028/www.scientific.net/msf.217-222.1121
Publication status	Published - 1996

Keywords

Al-SiC Composites
Finite Element Method
Local Damages
Metal Matrix Composites
Stress-Strain Behaviour

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title = "Finite element analysis of deformation behavior and local damages in Al matrix-SiC particulate composite microstructures",

abstract = "Stress-strain behavior of silicon carbide particulate reinforced aluminum composites and stress localization which initiate damage in their microstructure were analyzed using finite elements method. A FORTRAN code was developed. The composite was assumed to be 3D infinite periodic array of spherical particles embedded in the matrix. Comparison of numerical results with published experimental data showed that the approach used is a very reliable tool to analyze the mechanical behavior of metal matrix composites. The conclusions drawn contain valuable information for the optimization and the design of particle reinforced composites.",

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AU - Aran, Ahmet

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N2 - Stress-strain behavior of silicon carbide particulate reinforced aluminum composites and stress localization which initiate damage in their microstructure were analyzed using finite elements method. A FORTRAN code was developed. The composite was assumed to be 3D infinite periodic array of spherical particles embedded in the matrix. Comparison of numerical results with published experimental data showed that the approach used is a very reliable tool to analyze the mechanical behavior of metal matrix composites. The conclusions drawn contain valuable information for the optimization and the design of particle reinforced composites.

AB - Stress-strain behavior of silicon carbide particulate reinforced aluminum composites and stress localization which initiate damage in their microstructure were analyzed using finite elements method. A FORTRAN code was developed. The composite was assumed to be 3D infinite periodic array of spherical particles embedded in the matrix. Comparison of numerical results with published experimental data showed that the approach used is a very reliable tool to analyze the mechanical behavior of metal matrix composites. The conclusions drawn contain valuable information for the optimization and the design of particle reinforced composites.

KW - Al-SiC Composites

KW - Finite Element Method

KW - Local Damages

KW - Metal Matrix Composites

KW - Stress-Strain Behaviour

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ER -

Finite element analysis of deformation behavior and local damages in Al matrix-SiC particulate composite microstructures

Abstract

Keywords

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