TY - JOUR
T1 - Experimental cyclic response of rubberised concrete-filled steel tubes
AU - Elghazouli, A. Y.
AU - Mujdeci, A.
AU - Bompa, D. V.
AU - Guo, Y. T.
N1 - Funding Information:
The second author wishes to acknowledge the scholarship funding provided by the Turkish Ministry of National Education . The fourth author wishes to acknowledge the postdoc funding provided by Zijing Scholar Program of Tsinghua University, China . The authors would additionally like to thank the technical staff of the Structures Laboratories at Imperial College London, particularly Mr. T Stickland, for their assistance with the tests. The support of Adria Abruzzo , Breedon Group , Elkem and Sika through material provision is also gratefully acknowledged.
Publisher Copyright:
© 2022 The Authors
PY - 2022/12
Y1 - 2022/12
N2 - This paper examines the behaviour of circular steel tubes infilled with concrete incorporating recycled rubber particles. The rubberised concrete-filled steel tubes are tested under lateral cyclic deformations with and without co-existing axial loading. A detailed account of the cyclic tests on twelve specimens is provided together with complementary material and section tests. The rubber replacement ratio is varied up to a relatively high value of 60%, under axial loads reaching up to 30% of the nominal capacity. Hollow steel members are also tested for comparison purposes. The experimental results are discussed in detail with respect to the member stiffness, capacity, ductility, energy dissipation and failure mechanisms. Although high rubber ratios lead to a considerable loss in concrete strength, the test results show that the corresponding reduction in member capacity is much less significant due to the contribution of the steel tube and the comparatively high confinement effects mobilised within the rubberised concrete. In comparison with the members incorporating normal concrete, the rubberised concrete members are found to exhibit up to about 10% and 17% increase in ductility and energy dissipation, respectively, depending on the rubber content. Analytical treatments are then used to suggest simplified relationships for predicting the stiffness, moment-axial strength interaction, plastic hinge length and local ductility criteria. Overall, the test results demonstrate the favourable inelastic cyclic performance of circular steel tubes infilled with rubberised concrete and provide valuable experimental data. The proposed expressions for key response parameters also offer the basis for developing practical assessment and design methods.
AB - This paper examines the behaviour of circular steel tubes infilled with concrete incorporating recycled rubber particles. The rubberised concrete-filled steel tubes are tested under lateral cyclic deformations with and without co-existing axial loading. A detailed account of the cyclic tests on twelve specimens is provided together with complementary material and section tests. The rubber replacement ratio is varied up to a relatively high value of 60%, under axial loads reaching up to 30% of the nominal capacity. Hollow steel members are also tested for comparison purposes. The experimental results are discussed in detail with respect to the member stiffness, capacity, ductility, energy dissipation and failure mechanisms. Although high rubber ratios lead to a considerable loss in concrete strength, the test results show that the corresponding reduction in member capacity is much less significant due to the contribution of the steel tube and the comparatively high confinement effects mobilised within the rubberised concrete. In comparison with the members incorporating normal concrete, the rubberised concrete members are found to exhibit up to about 10% and 17% increase in ductility and energy dissipation, respectively, depending on the rubber content. Analytical treatments are then used to suggest simplified relationships for predicting the stiffness, moment-axial strength interaction, plastic hinge length and local ductility criteria. Overall, the test results demonstrate the favourable inelastic cyclic performance of circular steel tubes infilled with rubberised concrete and provide valuable experimental data. The proposed expressions for key response parameters also offer the basis for developing practical assessment and design methods.
KW - Concrete filled steel tubes
KW - Ductility and energy dissipation
KW - Hysteretic behaviour
KW - Inelastic cyclic response
KW - Rubberised concrete
UR - http://www.scopus.com/inward/record.url?scp=85140328769&partnerID=8YFLogxK
U2 - 10.1016/j.jcsr.2022.107622
DO - 10.1016/j.jcsr.2022.107622
M3 - Journal article
AN - SCOPUS:85140328769
SN - 0143-974X
VL - 199
JO - Journal of Constructional Steel Research
JF - Journal of Constructional Steel Research
M1 - 107622
ER -