Sung-Kun You scite author profile

Concrete-steel composite members are formed by bonding a steel component, such as an I-section beam, to a concrete component, such as a reinforced concrete slab, so that the two components can act as a unit. The use of such type of composite member becomes main stream of construction technology since it provides efficient load resisting mechanism in structural system. In a composite member, bond between steel and concrete is a crucial factor for the composite action. Usually this bond behavior is achieved by installation of mechanical device so called shear connector. The composite action can be divided into two categories (i.e., full and partial) depending on the shear strength of mechanical shear connector embedded in the concrete, i.e., understanding of shear load resisting mechanism is necessary to develop a new shear connector for better, wider and more efficient application of composite action. For this purpose, the push-out tests are performed for the evaluation of several existing shear connectors including carefully designed perforated shear connector with flange head. One of the purposes of this experimental research is to define the shear resisting mechanism of the proposed new type shear connector. The experimental results show that the degree of composite action using perforated shear connector with flange head is superior to those of existing shear connectors such as a general headed stud, perfobond, etc. The experimental parameters, such as the number of perforated holes, the distance between perforated holes, and the height of shear connector, are carefully chosen for the verification of their effect on the capacity of shear resistance. From this experimental investigation it was found that the mechanical performance of proposed shear connector was efficient as a rigid shear connector.

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A Simplified Numerical Model for an Integral Abutment Bridge Considering the Restraining Effects Due to Backfill

Hong¹,

Jung²,

You³

et al. 2003

Journal of the Korea Concrete Institute

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Study on the Field Construction of Semi-Integral Bridge with PSC Girder Integrating End-Diaphragm

Park¹,

Kim²,

Jun³

et al. 2014

Journal of the Korean Society for Advanced Composite Structures

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This paper introduces general concepts of jointless bridges and field construction case of semi-integral bridge with psc girder integrating end-diaphragm. The expansion joints need to satisfy thermal and safety conditions of bridges. General bridges with joints have some problems, which are frequently replacement cycle time from mechanical damage or unstable movement, maintenance cost and more. To solve these problems, Integral Abutment Bridges(IAB) have been applied overseas in the 1930s. In Korea, first IAB was constructed in the early 2000s and precast IAB systems was invented and applied lately. Kyungshin overpass bridge in Incheon is the Semi-IAB constructed, the span length is 2@35=70m and the width is 13.9m. The original plan was to use general joint bridge but design field changed with expectations for advanced economic estimation and maintenance. This changed method of B.I.B bridge construction provided not only workability, construction cost but also safety improvement at the same time.

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Experimental Study on the Structural Behavior of Typical Bar Connections of Approach Slab in the Integral Abutment Bridge

You¹,

Kim²,

Kim³

et al. 2014

Journal of the Korean Society for Advanced Composite Structures

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Sung-Kun You

The Study on Local Composite Behavior of Connection Member between Steel Pipe Pile and Concrete Footing

An Experimental Study on the Shear Behavior of Perforated Shear Connector with Flange Head

A Simplified Numerical Model for an Integral Abutment Bridge Considering the Restraining Effects Due to Backfill

Study on the Field Construction of Semi-Integral Bridge with PSC Girder Integrating End-Diaphragm

Experimental Study on the Structural Behavior of Typical Bar Connections of Approach Slab in the Integral Abutment Bridge

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