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Concrete-filled circular steel tubes with a timber infill under axial compression

journal contribution
posted on 2023-05-19, 02:43 authored by Ghanbari Ghazijahani, T, Jiao, H, Damien HollowayDamien Holloway
Over the past two decades, there has been significant interest in research relating to concrete-filled tubes, and a corresponding penetration of this technology into practice. This paper aims to expound upon the effect of timber cores on the structural response of concrete-filled circular tubes under compression. A timber infill with different shapes and geometries surrounded by concrete and encased in a steel tube was employed. The effects of the combination of infill elements on the failure, axial capacity, ductility, and structural efficiency (weight versus capacity) are exhaustively set forth. For the specimens with the highest timber to concrete ratio, the capacity was enhanced by about two times the capacity of the hollow steel specimens. For these specimens a significant reduction in the total weight of the composite element was obtained relative to the fully concrete-filled specimens. These specimens showed the highest ductility among the other specimens. In addition, greater ratios of energy absorption to the mass were obtained for the specimens with different timber cores in comparison to the equivalent values for fully concrete-filled tubes, which is quite desirable in many practical scenarios. It is found that the use of timber as an inner core element in this new composite yields promising results in decreasing the weight and yet enhancing the capacity, ductility, and energy absorption, and can be a good alternative to double-skin concrete-filled steel tubes.

History

Publication title

Journal of Structural Engineering

Volume

143

Issue

7

Pagination

1-9

ISSN

0733-9445

Department/School

School of Engineering

Publisher

Asce-Amer Soc Civil Engineers

Place of publication

1801 Alexander Bell Dr, Reston, USA, Va, 20191-4400

Rights statement

© 2017 ASCE

Repository Status

  • Restricted

Socio-economic Objectives

Metals

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