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Experimental and numerical investigation on flexural response of reinforced rubberized concrete beams using waste tire rubber

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dc.contributor.authors Karalar, Memduh; Ozturk, Hakan; Ozkilic, Yasin Onuralp
dc.date.accessioned 2024-02-23T11:14:00Z
dc.date.available 2024-02-23T11:14:00Z
dc.date.issued 2023
dc.identifier.issn 1229-9367
dc.identifier.uri http://dx.doi.org/10.12989/scs.2023.48.1.043
dc.identifier.uri https://hdl.handle.net/20.500.12619/101976
dc.description Bu yayının lisans anlaşması koşulları tam metin açık erişimine izin vermemektedir.
dc.description.abstract The impacts of waste tire rubber (WTR) on the bending conduct of reinforced concrete beams (RCBs) are investigated in visualization of experimental tests and 3D finite element model (FEM) using both ANSYS and SAP2000. Several WTR rates are used in total 4 various full scale RCBs to observe the impact of WTR rate on the rupture and bending conduct of RCBs. For this purpose, the volumetric ratios (Vf) of WTR were chosen to change to 0%, 2.5%, 5% and 7.5% in the whole concrete. In relation to experimental test consequences, bending and rupture behaviors of the RCBs are observed. The best performance among the beams was observed in the beams with 2.5% WTR. Furthermore, as stated by test consequences, it is noticed that while WTR rate in the RCBs is improved, max. bending in the RCBs rises. For test consequences, it is clearly recognized as WTR rate in the RCB mixture is improved from 0% to 2.5%, deformation value in the RCB remarkably rises from 3.89 cm to 7.69 cm. This consequence is markedly recognized that WTR rates have a favorable result on deformation values in the RCBs. Furthermore, experimental tests are compared to 3D FEM consequences via using ANSYS software. In the ANSYS, special element types are formed and nonlinear multilinear misses plasticity material model and bilinear misses plasticity material model are chosen for concrete and compression and tension elements. As a consequence, it is noticed that each WTR rates in the RCBs mixture have dissimilar bending and rupture impacts on the RCBs. Then, to observe the impacts of WTR rate on the constructions under near-fault ground motions, a reinforced-concrete building was modelled via using SAP2000 software using 3-D model of the construction to complete nonlinear static analysis. Beam, column, steel haunch elements are modeled as nonlinear frame elements. Consequently, the seismic impacts of WTR rate on the lateral motions of each floor are obviously investigated particularly. Considering reduction in weight of structure and capacity of the members with using waste tire rubber, 2.5% of WTR resulted in the best performance while the construction is subjected to near fault earthquakes. Moreover, it is noticeably recognized that WTR rate has opposing influences on the seismic displacement behavior of the RC constructions.
dc.language.iso English
dc.relation.isversionof 10.12989/scs.2023.48.1.043
dc.subject MECHANICAL-PROPERTIES
dc.subject SHEAR BEHAVIOR
dc.subject STEEL
dc.subject POLYPROPYLENE
dc.subject PERFORMANCE
dc.subject DURABILITY
dc.subject PARTICLES
dc.subject AGGREGATE
dc.subject FIBERS
dc.subject VOLUME
dc.title Experimental and numerical investigation on flexural response of reinforced rubberized concrete beams using waste tire rubber
dc.type Article
dc.contributor.authorID Özkılıç, Yasin Onuralp/0000-0001-9354-4784
dc.contributor.authorID Ozturk, Hakan/0000-0003-2819-273X
dc.identifier.volume 48
dc.identifier.startpage 43
dc.identifier.endpage 57
dc.relation.journal STEEL COMPOS STRUCT
dc.identifier.issue 1
dc.identifier.doi 10.12989/scs.2023.48.1.043
dc.identifier.eissn 1598-6233
dc.contributor.author Karalar, M
dc.contributor.author Öztürk, H
dc.contributor.author Özkiliç, YO
dc.relation.publicationcategory Makale - Uluslararası Hakemli Dergi - Kurum Öğretim Elemanı


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