Effects of Confinement in Circular Hollow Concrete Columns

AbstractThe strength and ductility of concrete can be improved by adding confinement, which helps RC structures to withstand extreme loads in a ductile manner. However, the confined concrete behavior in hollow sections is not well understood, and thus this paper presents a systematic computational s...

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Veröffentlicht in:	Journal of structural engineering (New York, N.Y.) N.Y.), 2018-09, Vol.144 (9)
Hauptverfasser:	Liang, Xiao, Sritharan, Sri
Format:	Artikel
Sprache:	eng
Schlagworte:	Columns (structural) Computation Concrete Confinement Confining Dilation Product design Reinforced concrete Reinforcement Stress concentration Structural engineering Technical Papers Thickness ratio Wall thickness
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container_title	Journal of structural engineering (New York, N.Y.)
container_volume	144
creator	Liang, Xiao Sritharan, Sri
description	AbstractThe strength and ductility of concrete can be improved by adding confinement, which helps RC structures to withstand extreme loads in a ductile manner. However, the confined concrete behavior in hollow sections is not well understood, and thus this paper presents a systematic computational study on the confinement effect in hollow sections using key parameters such as the concrete dilation and confining pressure. Computational results show that the confinement effect on solid and hollow sections is very different. This difference is due to variations in concrete dilation and the distribution of confining pressure across the cross section. It is further shown that for circular hollow columns with a wall thickness ratio of 0.1, one layer of transverse reinforcement provides a satisfactory confining effect. For columns with larger wall thickness ratios up to 0.2, two layers of reinforcement connected with crossties are more appropriate, with an inner∶outer reinforcement ratio of 1∶9.
doi_str_mv	10.1061/(ASCE)ST.1943-541X.0002151
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However, the confined concrete behavior in hollow sections is not well understood, and thus this paper presents a systematic computational study on the confinement effect in hollow sections using key parameters such as the concrete dilation and confining pressure. Computational results show that the confinement effect on solid and hollow sections is very different. This difference is due to variations in concrete dilation and the distribution of confining pressure across the cross section. It is further shown that for circular hollow columns with a wall thickness ratio of 0.1, one layer of transverse reinforcement provides a satisfactory confining effect. 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subjects	Columns (structural) Computation Concrete Confinement Confining Dilation Product design Reinforced concrete Reinforcement Stress concentration Structural engineering Technical Papers Thickness ratio Wall thickness
title	Effects of Confinement in Circular Hollow Concrete Columns
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