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dc.contributor.authorSzymkuć, Wojciech
dc.contributor.authorGlema, Adam
dc.contributor.authorMalendowski, Michał
dc.description.abstractThe main goal of this paper is to predict the fire resistance rating (FRR) of composite concrete filled tubular (CFT) columns without external fire protection. In order to do that, the response of axially and eccentrically loaded columns to mechanical load in fire conditions is investigated. This study is based on data from 41 available full scale tests of columns filled with siliceous aggregate normal strength plain concrete, tested in the last 25 years by various researchers [1-6]. Analyses are carried out taken into account different parameters for which results are given, including different stress-strain relationships for concrete combined with two yield criterions, namely linear and hyperbolic Drucker-Prager. Different formulations of thermal expansion are investigated. Regarding properties influencing temperatures inside the cross-section, influence of formulations of specific heat of concrete and thermal gap conductance between steel tube and concrete core are investigated. Sensitivity study concerning mesh size as well as imperfections shape and magnitude is carried out. Recommendations regarding model application range are given based on evaluation of the results, which are plotted or showed against independent variables such as relative slenderness, utilization ratio or boundary conditions. Mean ratio of calculated fire resistance time to time of fire resistance measured during experimental test is presented. For the proposed model and for set of 41 tested specimens the ratio is around 1.0, with a standard deviation around 0.3 for all specimens, while standard deviation does not exceed 0.2 for pinned-fixed and fixed-fixed columns in most cases. Selected results are presented in detail.pl_PL
dc.description.sponsorshipThis article was financially supported within the project "Engineer of the Future. Improving the didactic potential of the Poznan University of Technology" - POKL.04.03.00-00-259/12, implemented within the Human Capital Operational Programme, co-financed by the European Union within the European Social Fund. Majority of the computations were carried out in Poznan Supercomputing and Networking Center.pl_PL
dc.publisherDEStech Publications, Inc.pl_PL
dc.rightsCreative Commons Uznanie autorstwa 3.0 Polska
dc.subjectCFT columnspl_PL
dc.subjectfire performancepl_PL
dc.subjectResponse of Structures Under Extreme Loadingpl_PL
dc.subjectconcrete-filled hollow sectionspl_PL
dc.titleFire Performance of Steel Tubular Columns Filled with Normal Strength Concretepl_PL
dc.contributor.organizationInstitute of Structural Engineering, Poznan University of Technologypl_PL
dc.contributor.organizationInstytut Konstrukcji Budowlanych, Politechnika Poznańskapl_PL
dc.description.epersonWojciech Szymkuć

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Creative Commons Uznanie autorstwa 3.0 Polska
Except where otherwise noted, this item's license is described as Creative Commons Uznanie autorstwa 3.0 Polska