Identification of parameters of cohesive elements for modeling of adhesively bonded joints of epoxy composites

Identification of parameters of cohesive elements for modeling of adhesively bonded joints of epoxy composites

Adhesively bonded joints can be numerically simulated using the cohesive crack model. The critical strain energy release rate and the critical opening displacement are the parameters which must be known when cohesive elements in MSC.Marc software are used. In this work, the parameters of two industr...

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Bibliographic Details
Main Authors: Kottner R., Hynek R., Kroupa T.
Format: Article
Language:English
Published: University of West Bohemia 2013-12-01
Series:Applied and Computational Mechanics
Subjects:
adhesively bonded composite
DCB and ENF tests
cohesive elements
identification
Araldite 2021
Spabond 345
finite element model
Online Access:http://www.kme.zcu.cz/acm/acm/article/view/220/234
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spelling doaj-1a211bf6707547e685ffcda6c36822bc2021-09-02T01:08:52ZengUniversity of West BohemiaApplied and Computational Mechanics1802-680X2336-11822013-12-0172137144Identification of parameters of cohesive elements for modeling of adhesively bonded joints of epoxy compositesKottner R.0Hynek R. 1Kroupa T.2University of West Bohemia, NTIS – New Technologies for the Information Society, Plzen, Czech RepublicUniversity of West Bohemia, Department of Mechanics, Plzen, Czech RepublicUniversity of West Bohemia, NTIS – New Technologies for the Information Society, Plzen, Czech RepublicAdhesively bonded joints can be numerically simulated using the cohesive crack model. The critical strain energy release rate and the critical opening displacement are the parameters which must be known when cohesive elements in MSC.Marc software are used. In this work, the parameters of two industrial adhesives Hunstman Araldite 2021 and Gurit Spabond 345 for bonding of epoxy composites are identified. Double Cantilever Beam (DCB) and End Notched Flexure (ENF) test data were used for the identification. The critical opening displacements were identified using an optimization algorithm where the tests and their numerical simulations were compared.http://www.kme.zcu.cz/acm/acm/article/view/220/234adhesively bonded compositeDCB and ENF testscohesive elementsidentificationAraldite 2021Spabond 345finite element model
collection DOAJ
language English
format Article
sources DOAJ
author Kottner R.
Hynek R.
Kroupa T.
spellingShingle Kottner R.
Hynek R.
Kroupa T.
Identification of parameters of cohesive elements for modeling of adhesively bonded joints of epoxy composites
Applied and Computational Mechanics
adhesively bonded composite
DCB and ENF tests
cohesive elements
identification
Araldite 2021
Spabond 345
finite element model
author_facet Kottner R.
Hynek R.
Kroupa T.
author_sort Kottner R.
title Identification of parameters of cohesive elements for modeling of adhesively bonded joints of epoxy composites
title_short Identification of parameters of cohesive elements for modeling of adhesively bonded joints of epoxy composites
title_full Identification of parameters of cohesive elements for modeling of adhesively bonded joints of epoxy composites
title_fullStr Identification of parameters of cohesive elements for modeling of adhesively bonded joints of epoxy composites
title_full_unstemmed Identification of parameters of cohesive elements for modeling of adhesively bonded joints of epoxy composites
title_sort identification of parameters of cohesive elements for modeling of adhesively bonded joints of epoxy composites
publisher University of West Bohemia
series Applied and Computational Mechanics
issn 1802-680X
2336-1182
publishDate 2013-12-01
description Adhesively bonded joints can be numerically simulated using the cohesive crack model. The critical strain energy release rate and the critical opening displacement are the parameters which must be known when cohesive elements in MSC.Marc software are used. In this work, the parameters of two industrial adhesives Hunstman Araldite 2021 and Gurit Spabond 345 for bonding of epoxy composites are identified. Double Cantilever Beam (DCB) and End Notched Flexure (ENF) test data were used for the identification. The critical opening displacements were identified using an optimization algorithm where the tests and their numerical simulations were compared.
topic adhesively bonded composite
DCB and ENF tests
cohesive elements
identification
Araldite 2021
Spabond 345
finite element model
url http://www.kme.zcu.cz/acm/acm/article/view/220/234
work_keys_str_mv AT kottnerr identificationofparametersofcohesiveelementsformodelingofadhesivelybondedjointsofepoxycomposites
AT hynekr identificationofparametersofcohesiveelementsformodelingofadhesivelybondedjointsofepoxycomposites
AT kroupat identificationofparametersofcohesiveelementsformodelingofadhesivelybondedjointsofepoxycomposites
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