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Combined Torsion, Flexure, and Axial Compression Applied to Concrete-Filled FRP Tubes
This paper presents the testing results of four concrete-filled fiber-reinforced polymer tubes (CFFT) to evaluate their response under combined axial compression, flexural, and torsional loading. The first three samples evaluated each of the loading states individually, while the final sample tested a combination of all three loads. The presence of the axial compressive force was found to increase cracking strength by 178% in flexure and 105% in torsion while improving load retention after cracking. More importantly, combined loading was found to improve the flexural capacity by 34%, while reducing the torsional strength by 30%. This loading state had little effect on the flexural and torsional stiffnesses along with the maximum flexural deflection but reduced the twist capacity by 68%. Failure in the combined loading state was governed by the rupture of the tube resulting from high longitudinal tension on the bottom surface like in the case of pure flexure.
Combined Torsion, Flexure, and Axial Compression Applied to Concrete-Filled FRP Tubes
This paper presents the testing results of four concrete-filled fiber-reinforced polymer tubes (CFFT) to evaluate their response under combined axial compression, flexural, and torsional loading. The first three samples evaluated each of the loading states individually, while the final sample tested a combination of all three loads. The presence of the axial compressive force was found to increase cracking strength by 178% in flexure and 105% in torsion while improving load retention after cracking. More importantly, combined loading was found to improve the flexural capacity by 34%, while reducing the torsional strength by 30%. This loading state had little effect on the flexural and torsional stiffnesses along with the maximum flexural deflection but reduced the twist capacity by 68%. Failure in the combined loading state was governed by the rupture of the tube resulting from high longitudinal tension on the bottom surface like in the case of pure flexure.
Combined Torsion, Flexure, and Axial Compression Applied to Concrete-Filled FRP Tubes
Lecture Notes in Civil Engineering
Ilki, Alper (Herausgeber:in) / Ispir, Medine (Herausgeber:in) / Inci, Pinar (Herausgeber:in) / Onge, James St. (Autor:in) / Fam, Amir (Autor:in)
International Conference on Fibre-Reinforced Polymer (FRP) Composites in Civil Engineering ; 2021 ; Istanbul, Turkey
10th International Conference on FRP Composites in Civil Engineering ; Kapitel: 39 ; 461-471
27.11.2021
11 pages
Aufsatz/Kapitel (Buch)
Elektronische Ressource
Englisch
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