Chang-Ho Sun scite author profile

The primary objective of this study was to identify concrete contribution to the initial shear strength of reinforced concrete (RC) hollow columns under lateral loading. Seven large-scale RC rectangular hollow column specimens were tested under monotonic or cyclic lateral loads. The most important design parameter was column length-to-depth aspect ratio ranging between 1.5 and 3.0, and the other test variables included web area ratio, hollow section ratio, and loading history. The tests showed that the initial shear strength reduced in a linear pattern as the column aspect ratio increased, and one specimen tested under cyclic loading achieved approximately 83% of the shear strength of the companion specimen under monotonic loading. Also, several pioneering shear models proposed around the world, all of which were mainly based on tests for columns with solid sections, were reviewed and compared with the test results of this study, for their possible applications to columns with hollow sections. After all, an empirical equation was proposed for concrete contribution to the initial shear strength of RC hollow columns based on fundamental mechanics and the test results.

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A reliable numerical method for simulating the post-failure behaviour of concrete frame structures

Sun

Bradford

Gilbert

1994

Computers & Structures

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Seismic Characteristics of Hollow Rectangular Sectional Piers with Reduced Lateral Reinforcements

Sun¹,

Kim²

2009

Journal of the Earthquake Engineering Society of Korea

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>> The seismic design concept of RC bridges is to attain the proper ductility of piers, yielding a ductile failure mechanism. Therefore, seismic design force for moment is determined by introducing a response modification factor (R), and lateral reinforcements to confine core concrete are specified in the current design code. However, these design provisions have irrationality, which results in excessive amounts of lateral reinforcements for columns in Korea, which are generally designed with large sections. To improve on these provisions, a new design method based on seismic performance has been proposed. To apply this to hollow sectional columns, however, further investigations and improvements must be performed, due to the different seismic behaviors and confinement effects. In this study, hollow sectional columns with different lap-splice of longitudinal bars and lateral reinforcements have been tested. Seismic characteristics and performance were investigated quantitatively. These research results can be used to derive a performance-based design for hollow sectional columns. Key words

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Nonlinear analysis for concrete frame structures using the finite element method

Sun

Bradford

Gilbert

1993

Computers & Structures

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Chang-Ho Sun

Shear strength model for reinforced concrete rectangular hollow columns

Concrete contribution to initial shear strength of RC hollow bridge columns

A reliable numerical method for simulating the post-failure behaviour of concrete frame structures

Seismic Characteristics of Hollow Rectangular Sectional Piers with Reduced Lateral Reinforcements

Nonlinear analysis for concrete frame structures using the finite element method

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