Load Diffusion and Absorption Problems From a Finite Fiber to Elastic Infinite Matrix

Ven-Gen Lee; Toshio Mura

Source: Journal of Applied Mechanics:;1994:;volume( 061 ):;issue: 003::page 567

Author:

Ven-Gen Lee

Toshio Mura

DOI: 10.1115/1.2901497

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: The load transfer behavior of a finite fiber perfectly bonded to an infinite matrix of distinct elastic moduli is investigated in this paper. The fiber is subjected to the uniformly distributed loading applied at infinity or on one cross-section of the fiber. The stress disturbance due to the existing fiber is simulated by the equivalent inclusion method, which formulates the inhomogeneity problem to a system of integral equations. By dividing the fiber into finite numbers of ring elements with uniform distributed eigenstrains, the integral equations can be further reduced to a system of algebraic equations with coefficients expressed in terms of the integrals of Lipschitz-Hankel type. Numerical results are presented for resultant axial force for various fiber length and material properties. The limiting cases of the infinite and semi-infinite fibers are also compared with the exact and approximate solutions.

keyword(s): Diffusion (Physics) , Fibers , Absorption , Stress , Integral equations , Force , Materials properties , Elastic moduli AND Equations ,

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Load Diffusion and Absorption Problems From a Finite Fiber to Elastic Infinite Matrix

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contributor author	Ven-Gen Lee
contributor author	Toshio Mura
date accessioned	2017-05-08T23:43:18Z
date available	2017-05-08T23:43:18Z
date copyright	September, 1994
date issued	1994
identifier issn	0021-8936
identifier other	JAMCAV-26357#567_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/113060
description abstract	The load transfer behavior of a finite fiber perfectly bonded to an infinite matrix of distinct elastic moduli is investigated in this paper. The fiber is subjected to the uniformly distributed loading applied at infinity or on one cross-section of the fiber. The stress disturbance due to the existing fiber is simulated by the equivalent inclusion method, which formulates the inhomogeneity problem to a system of integral equations. By dividing the fiber into finite numbers of ring elements with uniform distributed eigenstrains, the integral equations can be further reduced to a system of algebraic equations with coefficients expressed in terms of the integrals of Lipschitz-Hankel type. Numerical results are presented for resultant axial force for various fiber length and material properties. The limiting cases of the infinite and semi-infinite fibers are also compared with the exact and approximate solutions.
publisher	The American Society of Mechanical Engineers (ASME)
title	Load Diffusion and Absorption Problems From a Finite Fiber to Elastic Infinite Matrix
type	Journal Paper
journal volume	61
journal issue	3
journal title	Journal of Applied Mechanics
identifier doi	10.1115/1.2901497
journal fristpage	567
journal lastpage	574
identifier eissn	1528-9036
keywords	Diffusion (Physics)
keywords	Fibers
keywords	Absorption
keywords	Stress
keywords	Integral equations
keywords	Force
keywords	Materials properties
keywords	Elastic moduli AND Equations
tree	Journal of Applied Mechanics:;1994:;volume( 061 ):;issue: 003
contenttype	Fulltext

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