Modeling the Effect of Oxidation on Damage in SiC/Ti-15-3 Metal Matrix Composites

L. A. Wittig; D. H. Allen

Source: Journal of Engineering Materials and Technology:;1994:;volume( 116 ):;issue: 003::page 421

Author:

L. A. Wittig

D. H. Allen

DOI: 10.1115/1.2904308

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: In this paper, a micromechanical analysis is performed on a single ply continuous fiber SiC/Ti-15V-3Al-3Sn-3Cr (Ti-15-3) metal matrix composite to study the complex interactions between the composite microstructural components and the surrounding environment at high temperatures. Finite elements are incorporated to model oxygen diffusing into the free suface of a representative volume element (RVE) during cool down from the processing temperature. The resulting residual stress distribution is investigated assuming thermoelastic material models for the matrix, oxide layer, and fiber. Results indicate that the oxidized surface layer is prone to cracking upon subsequent mechanical loading, and this effect is strongly temperature dependent.

keyword(s): Metal matrix composites , Modeling , oxidation , Temperature , Fibers , Composite materials , Oxygen , High temperature , Stress concentration , Finite element analysis AND Fracture (Process) ,

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Modeling the Effect of Oxidation on Damage in SiC/Ti-15-3 Metal Matrix Composites

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contributor author	L. A. Wittig
contributor author	D. H. Allen
date accessioned	2017-05-08T23:44:25Z
date available	2017-05-08T23:44:25Z
date copyright	July, 1994
date issued	1994
identifier issn	0094-4289
identifier other	JEMTA8-26965#421_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/113693
description abstract	In this paper, a micromechanical analysis is performed on a single ply continuous fiber SiC/Ti-15V-3Al-3Sn-3Cr (Ti-15-3) metal matrix composite to study the complex interactions between the composite microstructural components and the surrounding environment at high temperatures. Finite elements are incorporated to model oxygen diffusing into the free suface of a representative volume element (RVE) during cool down from the processing temperature. The resulting residual stress distribution is investigated assuming thermoelastic material models for the matrix, oxide layer, and fiber. Results indicate that the oxidized surface layer is prone to cracking upon subsequent mechanical loading, and this effect is strongly temperature dependent.
publisher	The American Society of Mechanical Engineers (ASME)
title	Modeling the Effect of Oxidation on Damage in SiC/Ti-15-3 Metal Matrix Composites
type	Journal Paper
journal volume	116
journal issue	3
journal title	Journal of Engineering Materials and Technology
identifier doi	10.1115/1.2904308
journal fristpage	421
journal lastpage	427
identifier eissn	1528-8889
keywords	Metal matrix composites
keywords	Modeling
keywords	oxidation
keywords	Temperature
keywords	Fibers
keywords	Composite materials
keywords	Oxygen
keywords	High temperature
keywords	Stress concentration
keywords	Finite element analysis AND Fracture (Process)
tree	Journal of Engineering Materials and Technology:;1994:;volume( 116 ):;issue: 003
contenttype	Fulltext

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