Statistical bias indicators for the long-term displacement of steel-concrete composite beams

Julian A. Moreno; Jorge L.P. Tamayo; Inácio B. Morsch; Marcela P. Miranda; Lucas H. Reginato

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자료유형: 학술저널

저자정보: Julian A. Moreno (Federal University of Rio Grande do Sul) Jorge L.P. Tamayo (Federal University of Rio Grande do Sul) Inácio B. Morsch (Federal University of Rio Grande do Sul) Marcela P. Miranda (Federal University of Rio Grande do Sul) Lucas H. Reginato (Federal University of Rio Grande do Sul)

저널정보: 한국계산역학회 Computers and Concrete, An International Journal Computers and Concrete, An International Journal Vol.24 No.4

발행연도: 2019.1

수록면: 379 - 397 (19page)

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Steel-concrete composite beams are widely employed in constructions and their performance at the serviceability stage is of concern among practitioners and design regulations. In this context, an accurate evaluation of long-term deflections via various rheological concrete models is needed. In this work, the performance and predict capability of some concrete creep and shrinkage models ACI, CEB, B3, FIB and GL2000 are ascertained, and compared by using statistical bias indicators. Ten steel-concrete composite beams with existing experimental and numerical results are then modeled for this purpose. The proposed modeling technique uses the finite element method, where the concrete slab and steel beam are modeled with shell finite elements. Concrete is considered as an aging viscoelastic material and cracking is treated with the common smeared approach. The results show that when the experimental ultimate shrinkage strain is used for calibration, all studied rheological models predict nearly similar deflections, which agree with the experimental data. In contrast, significance differences are encountered for some models, when none calibration is made prior to. A value between twenty and thirty times the cracking strain is recommended for the ultimate tensile strain in the tension stiffening model. Also, increasing the relative humidity and decreasing the ambient temperature can lead to a substantial reduction of slab cracking for beams under negative flexure. Finally, there is not a unique rheological model that clearly excels in all scenarios.

#statistical bias indicators #composite beams #displacement #finite elements #creep and shrinkage

참고문헌 (49)

참고문헌 신청

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