Rodyti trumpą aprašą

dc.contributor.authorSultani, Haji Akbar
dc.contributor.authorRimkus, Arvydas
dc.contributor.authorSokolov, Aleksandr
dc.contributor.authorGribniak, Viktor
dc.date.accessioned2023-09-18T16:41:34Z
dc.date.available2023-09-18T16:41:34Z
dc.date.issued2023
dc.identifier.other(crossref_id)148291095
dc.identifier.urihttps://etalpykla.vilniustech.lt/handle/123456789/116050
dc.description.abstractIn recent years, fiber-reinforced polymeric (FRP) materials have become promising alternatives to steel because of their lightweight, electromagnetic transparency, and corrosion resistance. However, the unfavorable environment (elevated temperature and high humidity in particular) can affect the long-term mechanical performance of these materials. Therefore, this study utilizes the previously developed testing layout and analytical model to simulate and quantify these unfavorable effects in concrete beams reinforced with FRP composites. The explicit analytical model quantifies the flexural stiffness reduction expressed in the equivalent stresses acting on the tensile concrete. This approach does not require specifying the loading history that makes it feasible for the comparative analysis of the stiffness degradation of FRP-reinforced concrete via a series of repeated mechanical tests corresponding to continuous exposition to the harsh environment. This study considers the open atmosphere corresponding to the Nord Europe climatic region. In addition, after applying the service load, the reference specimens were kept under laboratory conditions. The latter samples provide the reference for quantifying the stiffness degradation and the repeated mechanical load effect expressed in the residual deflection of the test sample. Thus, this study reveals that the open environment specifically affected the stiffness decay in the external bonded reinforcement system. In contrast, this effect in the near-surface mounted reinforcement system was insignificant.eng
dc.formatPDF
dc.format.extentp. 618-627
dc.format.mediumtekstas / txt
dc.language.isoeng
dc.relation.ispartofseriesLecture Notes in Civil Engineering vol. 349 2366-2557 2366-2565
dc.relation.isreferencedbyScopus
dc.relation.isreferencedbySpringerLink
dc.relation.isreferencedbyEI Compendex Plus
dc.rightsLaisvai prieinamas internete
dc.source.urihttps://link.springer.com/book/10.1007/978-3-031-32519-9
dc.source.urihttps://talpykla.elaba.lt/elaba-fedora/objects/elaba:169130009/datastreams/MAIN/content
dc.titleAnalyzing environmental effects on the mechanical performance of composite reinforcement systems
dc.typeStraipsnis konferencijos darbų leidinyje Scopus DB / Paper in conference publication in Scopus DB
dcterms.licenseCreative Commons – Attribution – 4.0 International
dcterms.references10
dc.type.pubtypeP1b - Straipsnis konferencijos darbų leidinyje Scopus DB / Article in conference proceedings Scopus DB
dc.contributor.institutionVilniaus Gedimino technikos universitetas
dc.contributor.facultyStatybos fakultetas / Faculty of Civil Engineering
dc.contributor.departmentStatinių ir tiltų konstrukcijų institutas / Institute of Building and Bridge Structures
dc.subject.researchfieldT 008 - Medžiagų inžinerija / Material engineering
dc.subject.researchfieldT 002 - Statybos inžinerija / Construction and engineering
dc.subject.studydirectionF03 - Medžiagų technologijos / Materials technology
dc.subject.studydirectionE05 - Statybos inžinerija / Civil engineering
dc.subject.vgtuprioritizedfieldsSD0101 - Pažangios statinių konstrukcijos / Smart building structures
dc.subject.ltspecializationsL104 - Nauji gamybos procesai, medžiagos ir technologijos / New production processes, materials and technologies
dc.subject.enreinforced concrete
dc.subject.enFRP composites
dc.subject.enresidual stiffness
dc.subject.enanalytical model
dc.subject.enflexural test
dcterms.sourcetitleBuilding for the future: Durable, sustainable, resilient : proceedings of the fib Symposium 2023. Vol. 1
dc.publisher.nameSpringer
dc.publisher.cityCham
dc.identifier.doi148291095
dc.identifier.doi10.1007/978-3-031-32519-9_60
dc.identifier.elaba169130009


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