A method for eliminating the effect of 3-D bi-material interface corner geometries on stress singularity

The stress singularities at three-dimensional (3-D) interface corners and edges have been investigated numerically using common finite element methods. The effects of variation of edge angle and vertex angle between the two free side surfaces on the order of stress singularity at bi-material interfa...

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Veröffentlicht in:	Engineering fracture mechanics 2006-05, Vol.73 (7), p.953-962
1. Verfasser:	Wu, Zhixue
Format:	Artikel
Sprache:	eng
Schlagworte:	Bi-material Exact sciences and technology Finite element analysis (FEA) Fracture mechanics (crack, fatigue, damage...) Fundamental areas of phenomenology (including applications) Interface corner Interfacial strength Physics Solid mechanics Stress singularity Structural and continuum mechanics
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container_title	Engineering fracture mechanics
container_volume	73
creator	Wu, Zhixue
description	The stress singularities at three-dimensional (3-D) interface corners and edges have been investigated numerically using common finite element methods. The effects of variation of edge angle and vertex angle between the two free side surfaces on the order of stress singularity at bi-material interface corners are determined. It is found that the order of stress singularity at interface corner depends not only on the combination of materials and edge angles but also on the vertex angle between the two free side surfaces. The effect of the vertex angle on the order of stress singularity at interface corner can be eliminated by smoothing the intersection of interface edges, which can be achieved simply by generating a circular-arc fillet at the intersection of the two free side surfaces. The numerical results show that, after smoothing the intersection of interface edges, the order of stress singularity along the interface edges become continuous, i.e. the order of the corner singularity can be reduced to the level of the edge singularity.
doi_str_mv	10.1016/j.engfracmech.2005.10.010
format	Article
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The effects of variation of edge angle and vertex angle between the two free side surfaces on the order of stress singularity at bi-material interface corners are determined. It is found that the order of stress singularity at interface corner depends not only on the combination of materials and edge angles but also on the vertex angle between the two free side surfaces. The effect of the vertex angle on the order of stress singularity at interface corner can be eliminated by smoothing the intersection of interface edges, which can be achieved simply by generating a circular-arc fillet at the intersection of the two free side surfaces. 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The effects of variation of edge angle and vertex angle between the two free side surfaces on the order of stress singularity at bi-material interface corners are determined. It is found that the order of stress singularity at interface corner depends not only on the combination of materials and edge angles but also on the vertex angle between the two free side surfaces. The effect of the vertex angle on the order of stress singularity at interface corner can be eliminated by smoothing the intersection of interface edges, which can be achieved simply by generating a circular-arc fillet at the intersection of the two free side surfaces. 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subjects	Bi-material Exact sciences and technology Finite element analysis (FEA) Fracture mechanics (crack, fatigue, damage...) Fundamental areas of phenomenology (including applications) Interface corner Interfacial strength Physics Solid mechanics Stress singularity Structural and continuum mechanics
title	A method for eliminating the effect of 3-D bi-material interface corner geometries on stress singularity
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