Multi-parameter crack tip stress state description for estimation of fracture process zone extent in silicate composite WST specimens

Multi-parameter crack tip stress state description for estimation of fracture process zone extent in silicate composite WST specimens

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For wedge splitting test specimens, the stress and displacement fields both in the vicinity and also in larger distance from the crack tip are investigated by means of numerical methods. Several variants of boundary conditions were modeled. The stress intensity factor K, T-stress and even higher-ord...

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Main Authors: Václav Veselý, Jakub Sobek, Lucie Šestáková, Petr Frantík, Stanislav Seitl
Format: Article
Language:English
Published: Gruppo Italiano Frattura 2013-07-01
Series:Frattura ed Integrità Strutturale
Subjects:
Near-crack tip fields
Williams series
Higher-order terms
Stress field approximation
Wedge splitting test
Fracture process zone
Online Access:http://www.gruppofrattura.it/pdf/rivista/numero25/numero_25_art_11.pdf
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spelling doaj-8dbad6e7192546db85d94c5e46e7d7112020-11-24T23:47:31ZengGruppo Italiano FratturaFrattura ed Integrità Strutturale1971-89932013-07-01725697810.3221/IGF-ESIS.25.11Multi-parameter crack tip stress state description for estimation of fracture process zone extent in silicate composite WST specimensVáclav VeselýJakub SobekLucie ŠestákováPetr FrantíkStanislav SeitlFor wedge splitting test specimens, the stress and displacement fields both in the vicinity and also in larger distance from the crack tip are investigated by means of numerical methods. Several variants of boundary conditions were modeled. The stress intensity factor K, T-stress and even higher-order terms of William series were determined and subsequently utilized for analytical approximation of the stress field. A good fit between the analytical and numerical solution in dependence on the distance from the crack tip was shown, compared and discussed. Presented approach is considered as suitable for estimation of the fracture process zone extent in silicate composite materials.http://www.gruppofrattura.it/pdf/rivista/numero25/numero_25_art_11.pdfNear-crack tip fieldsWilliams seriesHigher-order termsStress field approximationWedge splitting testFracture process zone
collection DOAJ
language English
format Article
sources DOAJ
author Václav Veselý
Jakub Sobek
Lucie Šestáková
Petr Frantík
Stanislav Seitl
spellingShingle Václav Veselý
Jakub Sobek
Lucie Šestáková
Petr Frantík
Stanislav Seitl
Multi-parameter crack tip stress state description for estimation of fracture process zone extent in silicate composite WST specimens
Frattura ed Integrità Strutturale
Near-crack tip fields
Williams series
Higher-order terms
Stress field approximation
Wedge splitting test
Fracture process zone
author_facet Václav Veselý
Jakub Sobek
Lucie Šestáková
Petr Frantík
Stanislav Seitl
author_sort Václav Veselý
title Multi-parameter crack tip stress state description for estimation of fracture process zone extent in silicate composite WST specimens
title_short Multi-parameter crack tip stress state description for estimation of fracture process zone extent in silicate composite WST specimens
title_full Multi-parameter crack tip stress state description for estimation of fracture process zone extent in silicate composite WST specimens
title_fullStr Multi-parameter crack tip stress state description for estimation of fracture process zone extent in silicate composite WST specimens
title_full_unstemmed Multi-parameter crack tip stress state description for estimation of fracture process zone extent in silicate composite WST specimens
title_sort multi-parameter crack tip stress state description for estimation of fracture process zone extent in silicate composite wst specimens
publisher Gruppo Italiano Frattura
series Frattura ed Integrità Strutturale
issn 1971-8993
publishDate 2013-07-01
description For wedge splitting test specimens, the stress and displacement fields both in the vicinity and also in larger distance from the crack tip are investigated by means of numerical methods. Several variants of boundary conditions were modeled. The stress intensity factor K, T-stress and even higher-order terms of William series were determined and subsequently utilized for analytical approximation of the stress field. A good fit between the analytical and numerical solution in dependence on the distance from the crack tip was shown, compared and discussed. Presented approach is considered as suitable for estimation of the fracture process zone extent in silicate composite materials.
topic Near-crack tip fields
Williams series
Higher-order terms
Stress field approximation
Wedge splitting test
Fracture process zone
url http://www.gruppofrattura.it/pdf/rivista/numero25/numero_25_art_11.pdf
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AT jakubsobek multiparametercracktipstressstatedescriptionforestimationoffractureprocesszoneextentinsilicatecompositewstspecimens
AT luciesestakova multiparametercracktipstressstatedescriptionforestimationoffractureprocesszoneextentinsilicatecompositewstspecimens
AT petrfrantik multiparametercracktipstressstatedescriptionforestimationoffractureprocesszoneextentinsilicatecompositewstspecimens
AT stanislavseitl multiparametercracktipstressstatedescriptionforestimationoffractureprocesszoneextentinsilicatecompositewstspecimens
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