An approach for the modeling of interface-body coupled nonlocal damage

An approach for the modeling of interface-body coupled nonlocal damage

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Fiber Reinforced Plastic (FRP) can be used for strengthening concrete or masonry constructions. One of the main problem in the use of FRP is the possible detachment of the reinforcement from the support material. This paper deals with the modeling of the FRP-concrete or masonry damage interface, acc...

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Main Authors: S. Marfia, E. Sacco, J. Toti
Format: Article
Language:English
Published: Gruppo Italiano Frattura 2013-04-01
Series:Frattura ed Integrità Strutturale
Online Access:https://212.237.37.202/index.php/fis/article/view/80
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spelling doaj-f0b0334f1cbc49c2baf71a90f08828152021-01-30T17:16:17ZengGruppo Italiano FratturaFrattura ed Integrità Strutturale1971-89932013-04-01412An approach for the modeling of interface-body coupled nonlocal damageS. Marfia0E. Sacco1J. Toti2University of Cassino, DiMSAT, ItalyUniversity of Cassino, DiMSAT, ItalyUniversity of Cassino, DiMSAT, ItalyFiber Reinforced Plastic (FRP) can be used for strengthening concrete or masonry constructions. One of the main problem in the use of FRP is the possible detachment of the reinforcement from the support material. This paper deals with the modeling of the FRP-concrete or masonry damage interface, accounting for the coupling occurring between the degradation of the cohesive material and the FRP detachment. To this end, a damage model is considered for the quasi-brittle material. In order to prevent strain localization and strong mesh sensitivity of the solution, an integral-type of nonlocal model based on the weighted spatial averaging of a strain-like quantity is developed. Regarding the interface, the damage is governed by the relative displacement occurring at bond. A suitable interface model which accounts for the mode I, mode II and mixed mode of damage is developed. The coupling between the body damage and the interface damage is performed computing the body damage on the bond surface. Numerical examples are presented.https://212.237.37.202/index.php/fis/article/view/80
collection DOAJ
language English
format Article
sources DOAJ
author S. Marfia
E. Sacco
J. Toti
spellingShingle S. Marfia
E. Sacco
J. Toti
An approach for the modeling of interface-body coupled nonlocal damage
Frattura ed Integrità Strutturale
author_facet S. Marfia
E. Sacco
J. Toti
author_sort S. Marfia
title An approach for the modeling of interface-body coupled nonlocal damage
title_short An approach for the modeling of interface-body coupled nonlocal damage
title_full An approach for the modeling of interface-body coupled nonlocal damage
title_fullStr An approach for the modeling of interface-body coupled nonlocal damage
title_full_unstemmed An approach for the modeling of interface-body coupled nonlocal damage
title_sort approach for the modeling of interface-body coupled nonlocal damage
publisher Gruppo Italiano Frattura
series Frattura ed Integrità Strutturale
issn 1971-8993
publishDate 2013-04-01
description Fiber Reinforced Plastic (FRP) can be used for strengthening concrete or masonry constructions. One of the main problem in the use of FRP is the possible detachment of the reinforcement from the support material. This paper deals with the modeling of the FRP-concrete or masonry damage interface, accounting for the coupling occurring between the degradation of the cohesive material and the FRP detachment. To this end, a damage model is considered for the quasi-brittle material. In order to prevent strain localization and strong mesh sensitivity of the solution, an integral-type of nonlocal model based on the weighted spatial averaging of a strain-like quantity is developed. Regarding the interface, the damage is governed by the relative displacement occurring at bond. A suitable interface model which accounts for the mode I, mode II and mixed mode of damage is developed. The coupling between the body damage and the interface damage is performed computing the body damage on the bond surface. Numerical examples are presented.
url https://212.237.37.202/index.php/fis/article/view/80
work_keys_str_mv AT smarfia anapproachforthemodelingofinterfacebodycouplednonlocaldamage
AT esacco anapproachforthemodelingofinterfacebodycouplednonlocaldamage
AT jtoti anapproachforthemodelingofinterfacebodycouplednonlocaldamage
AT smarfia approachforthemodelingofinterfacebodycouplednonlocaldamage
AT esacco approachforthemodelingofinterfacebodycouplednonlocaldamage
AT jtoti approachforthemodelingofinterfacebodycouplednonlocaldamage
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