Failure Criteria for SentryGlas® Ionomer and TSSA Silicon: A Theoretical Introduction to a Novel Generalized Triaxial Model (GTM)

SentryGlas® (SG) (a transparent ionomer from Kuraray) and Transparent Structural Silicon Adhesive (TSSA) (a transparent silicon from Dow Corning) are two of the adhesive materials used in laminated adhesive connections for structural glass applications. Although they have been used in several proje...

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Autores principales: M. Santarsiero, C. Louter
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Lenguaje:EN
Publicado: Challenging Glass Conference 2016
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Acceso en línea:https://doaj.org/article/7419401022d1480c8c4ff8f86353c345
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spelling oai:doaj.org-article:7419401022d1480c8c4ff8f86353c3452021-12-04T05:12:40ZFailure Criteria for SentryGlas® Ionomer and TSSA Silicon: A Theoretical Introduction to a Novel Generalized Triaxial Model (GTM)10.7480/cgc.5.22572589-8019https://doaj.org/article/7419401022d1480c8c4ff8f86353c3452016-06-01T00:00:00Zhttps://proceedings.challengingglass.com/index.php/cgc/article/view/146https://doaj.org/toc/2589-8019 SentryGlas® (SG) (a transparent ionomer from Kuraray) and Transparent Structural Silicon Adhesive (TSSA) (a transparent silicon from Dow Corning) are two of the adhesive materials used in laminated adhesive connections for structural glass applications. Although they have been used in several projects worldwide, failure criteria for these materials are currently not available in literature. This work gives an introduction to the theoretical development of a novel failure a criterion for TSSA and SG under varying stress state conditions. The main output of this work is a four-dimensional Generalized Triaxial Model (GTM) that accounts for a generic stress state by a governing equation expressed as a function of the three-dimensional stress tensor. Both deviatoric and hydrostatic energetic components are taken into consideration by means of a non-linear function of the two contributions. The effects of the model parameters are investigated by a parametrical study. The proposed model is then analytically compared to existing failure criteria. It is shown that many of the existing models available in the literature can be seen as particular cases of the proposed model. Although the GTM was theoretically developed specifically for SG and TSSA, the model can be generically used as failure criterion for many isotropic materials. M. SantarsieroC. LouterChallenging Glass ConferencearticleSentryglasIonomerTSSAsiliconlaminated connectionsadhesiveClay industries. Ceramics. GlassTP785-869ENChallenging Glass Conference Proceedings, Vol 5 (2016)
institution DOAJ
collection DOAJ
language EN
topic Sentryglas
Ionomer
TSSA
silicon
laminated connections
adhesive
Clay industries. Ceramics. Glass
TP785-869
spellingShingle Sentryglas
Ionomer
TSSA
silicon
laminated connections
adhesive
Clay industries. Ceramics. Glass
TP785-869
M. Santarsiero
C. Louter
Failure Criteria for SentryGlas® Ionomer and TSSA Silicon: A Theoretical Introduction to a Novel Generalized Triaxial Model (GTM)
description SentryGlas® (SG) (a transparent ionomer from Kuraray) and Transparent Structural Silicon Adhesive (TSSA) (a transparent silicon from Dow Corning) are two of the adhesive materials used in laminated adhesive connections for structural glass applications. Although they have been used in several projects worldwide, failure criteria for these materials are currently not available in literature. This work gives an introduction to the theoretical development of a novel failure a criterion for TSSA and SG under varying stress state conditions. The main output of this work is a four-dimensional Generalized Triaxial Model (GTM) that accounts for a generic stress state by a governing equation expressed as a function of the three-dimensional stress tensor. Both deviatoric and hydrostatic energetic components are taken into consideration by means of a non-linear function of the two contributions. The effects of the model parameters are investigated by a parametrical study. The proposed model is then analytically compared to existing failure criteria. It is shown that many of the existing models available in the literature can be seen as particular cases of the proposed model. Although the GTM was theoretically developed specifically for SG and TSSA, the model can be generically used as failure criterion for many isotropic materials.
format article
author M. Santarsiero
C. Louter
author_facet M. Santarsiero
C. Louter
author_sort M. Santarsiero
title Failure Criteria for SentryGlas® Ionomer and TSSA Silicon: A Theoretical Introduction to a Novel Generalized Triaxial Model (GTM)
title_short Failure Criteria for SentryGlas® Ionomer and TSSA Silicon: A Theoretical Introduction to a Novel Generalized Triaxial Model (GTM)
title_full Failure Criteria for SentryGlas® Ionomer and TSSA Silicon: A Theoretical Introduction to a Novel Generalized Triaxial Model (GTM)
title_fullStr Failure Criteria for SentryGlas® Ionomer and TSSA Silicon: A Theoretical Introduction to a Novel Generalized Triaxial Model (GTM)
title_full_unstemmed Failure Criteria for SentryGlas® Ionomer and TSSA Silicon: A Theoretical Introduction to a Novel Generalized Triaxial Model (GTM)
title_sort failure criteria for sentryglas® ionomer and tssa silicon: a theoretical introduction to a novel generalized triaxial model (gtm)
publisher Challenging Glass Conference
publishDate 2016
url https://doaj.org/article/7419401022d1480c8c4ff8f86353c345
work_keys_str_mv AT msantarsiero failurecriteriaforsentryglasionomerandtssasiliconatheoreticalintroductiontoanovelgeneralizedtriaxialmodelgtm
AT clouter failurecriteriaforsentryglasionomerandtssasiliconatheoreticalintroductiontoanovelgeneralizedtriaxialmodelgtm
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