Influence of adhesive spew in bonded single-lap joints

B. Kilic; E. Madenci; D. R. Ambur

doi:10.1016/j.engfracmech.2005.12.015

Influence of adhesive spew in bonded single-lap joints

B. Kilic, E. Madenci, D. R. Ambur

Aerospace and Mechanical Engineering

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

29 Scopus citations

Abstract

Adhesively bonded lap joints involve dissimilar material junctions and sharp changes in geometry, possibly leading to premature failure. Although the finite element method is well suited to model the bonded lap joints, traditional finite elements are incapable of correctly resolving the stress state at junctions of dissimilar materials because of the unbounded nature of the stresses. In order to facilitate the use of bonded lap joints in future structures, this study presents a finite element technique utilizing a global (special) element coupled with traditional elements. The global element includes the singular behavior at the junction of dissimilar materials with or without traction-free surfaces.

Original language	English (US)
Pages (from-to)	1472-1490
Number of pages	19
Journal	Engineering Fracture Mechanics
Volume	73
Issue number	11
DOIs	https://doi.org/10.1016/j.engfracmech.2005.12.015
State	Published - Jul 2006

Keywords

Adhesive
Bonded
Energy release rate
Single lap joint

ASJC Scopus subject areas

General Materials Science
Mechanics of Materials
Mechanical Engineering

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10.1016/j.engfracmech.2005.12.015

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title = "Influence of adhesive spew in bonded single-lap joints",

abstract = "Adhesively bonded lap joints involve dissimilar material junctions and sharp changes in geometry, possibly leading to premature failure. Although the finite element method is well suited to model the bonded lap joints, traditional finite elements are incapable of correctly resolving the stress state at junctions of dissimilar materials because of the unbounded nature of the stresses. In order to facilitate the use of bonded lap joints in future structures, this study presents a finite element technique utilizing a global (special) element coupled with traditional elements. The global element includes the singular behavior at the junction of dissimilar materials with or without traction-free surfaces.",

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AU - Madenci, E.

AU - Ambur, D. R.

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N2 - Adhesively bonded lap joints involve dissimilar material junctions and sharp changes in geometry, possibly leading to premature failure. Although the finite element method is well suited to model the bonded lap joints, traditional finite elements are incapable of correctly resolving the stress state at junctions of dissimilar materials because of the unbounded nature of the stresses. In order to facilitate the use of bonded lap joints in future structures, this study presents a finite element technique utilizing a global (special) element coupled with traditional elements. The global element includes the singular behavior at the junction of dissimilar materials with or without traction-free surfaces.

AB - Adhesively bonded lap joints involve dissimilar material junctions and sharp changes in geometry, possibly leading to premature failure. Although the finite element method is well suited to model the bonded lap joints, traditional finite elements are incapable of correctly resolving the stress state at junctions of dissimilar materials because of the unbounded nature of the stresses. In order to facilitate the use of bonded lap joints in future structures, this study presents a finite element technique utilizing a global (special) element coupled with traditional elements. The global element includes the singular behavior at the junction of dissimilar materials with or without traction-free surfaces.

KW - Adhesive

KW - Bonded

KW - Energy release rate

KW - Single lap joint

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ER -

Influence of adhesive spew in bonded single-lap joints

Abstract

Keywords

ASJC Scopus subject areas

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