Skip to the main content

Original scientific paper

Numerical simulation of ultra-strength concrete-filled steel columns

Zhishuo Yang
Yezhi Zhang
Mingxia Chen
Guocan Chen


Full text: english PDF 473 Kb

page 211-217

downloads: 1.678

cite


Abstract

Researches into the constitutive relation of the super high strength and high performance concrete and the stress strain relationship of the ultra-strength concrete-filled steel columns are rare. Therefore, this paper based on continuous mechanics presents the relationship of mathematical description to the concrete deformation behaviors. The compressive behaviors of steel-reinforced super high-strength concrete columns under axial loading were studied with a series of experiments. Two specimens with concrete strengths ranging from 130,1MPa to 137,3MPa and with 121mm circular hollow stub columns with wall thicknesses of 5 mm were manufactured. At the same time, a three dimensional non-linear FE analysis of axial compression was conducted using the finite element program ABAQUS/Standard solver. The numerical results were validated through comparison with experimental data in terms of axial loading and deformation modes.

Keywords

numerical simulation; vector method; concrete-filled tube; ultra-high strength confinement, axial compression

Hrčak ID:

111110

URI

https://hrcak.srce.hr/111110

Publication date:

25.11.2013.

Visits: 2.488 *