Experimental Study on Failure Mechanism of Single Lap-shear Bond Joint with Dissimilar Materials

S. H. Chung; B. C. Park; H. J. Chun; J. C. Park

doi:10.1088/1742-6596/843/1/012020

Experimental Study on Failure Mechanism of Single Lap-shear Bond Joint with Dissimilar Materials

S. H. Chung, B. C. Park, H. J. Chun, J. C. Park

Department of Mechanical Engineering

Research output: Contribution to journal › Conference article › peer-review

Abstract

The use of bond joints has increased recently, owing to a number of advantages they have over mechanical fasteners. However, most relevant studies have focused on bond joints with the same adherends. In this study, a quasi-static tensile test was conducted to investigate the failure mechanism of bond joints, considering different overlap lengths and dissimilar adherends. In the experiments, two modes of failure were observed: the interfacial and cohesive failure modes. The experiments showed that the length of separation of an overlap area through the interfacial failure was almost the same for different specimens.

Original language	English
Article number	012020
Journal	Journal of Physics: Conference Series
Volume	843
Issue number	1
DOIs	https://doi.org/10.1088/1742-6596/843/1/012020
Publication status	Published - 2017 May 31
Event	6th International Conference on Fracture Fatigue and Wear, FFW 2017 - Porto, Portugal Duration: 2017 Jul 26 → 2017 Jul 27

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.1088/1742-6596/843/1/012020

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title = "Experimental Study on Failure Mechanism of Single Lap-shear Bond Joint with Dissimilar Materials",

abstract = "The use of bond joints has increased recently, owing to a number of advantages they have over mechanical fasteners. However, most relevant studies have focused on bond joints with the same adherends. In this study, a quasi-static tensile test was conducted to investigate the failure mechanism of bond joints, considering different overlap lengths and dissimilar adherends. In the experiments, two modes of failure were observed: the interfacial and cohesive failure modes. The experiments showed that the length of separation of an overlap area through the interfacial failure was almost the same for different specimens.",

author = "Chung, {S. H.} and Park, {B. C.} and Chun, {H. J.} and Park, {J. C.}",

note = "Publisher Copyright: {\textcopyright} Published under licence by IOP Publishing Ltd. Copyright: Copyright 2018 Elsevier B.V., All rights reserved.; 6th International Conference on Fracture Fatigue and Wear, FFW 2017 ; Conference date: 26-07-2017 Through 27-07-2017",

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AU - Chung, S. H.

AU - Park, B. C.

AU - Chun, H. J.

AU - Park, J. C.

PY - 2017/5/31

Y1 - 2017/5/31

N2 - The use of bond joints has increased recently, owing to a number of advantages they have over mechanical fasteners. However, most relevant studies have focused on bond joints with the same adherends. In this study, a quasi-static tensile test was conducted to investigate the failure mechanism of bond joints, considering different overlap lengths and dissimilar adherends. In the experiments, two modes of failure were observed: the interfacial and cohesive failure modes. The experiments showed that the length of separation of an overlap area through the interfacial failure was almost the same for different specimens.

AB - The use of bond joints has increased recently, owing to a number of advantages they have over mechanical fasteners. However, most relevant studies have focused on bond joints with the same adherends. In this study, a quasi-static tensile test was conducted to investigate the failure mechanism of bond joints, considering different overlap lengths and dissimilar adherends. In the experiments, two modes of failure were observed: the interfacial and cohesive failure modes. The experiments showed that the length of separation of an overlap area through the interfacial failure was almost the same for different specimens.

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JF - Journal of Physics: Conference Series

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T2 - 6th International Conference on Fracture Fatigue and Wear, FFW 2017

Y2 - 26 July 2017 through 27 July 2017

ER -

Experimental Study on Failure Mechanism of Single Lap-shear Bond Joint with Dissimilar Materials

Abstract

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