Hong Gun Park scite author profile

PSRC composite column is a concrete encased steel angle column. In the PSRC composite column, the steel angles placed at the corner of the cross-section resists bending moment and compression load. In the present study, using the performance criteria in KBC 2009, cyclic lateral loading test was performed for PSRC columns to verify the seismic performance. The test parameters were the column type, the use of continuous hoop, and the use of studs for steel angle. 2/3 scale specimens of a conventional composite column and three PSRC columns were tested. The test results showed that the load-carrying capacity predicted by KBC 2009 correlated well with the test results. The specimens also exhibited good deformation and energy dissipation capacities. After concrete cover spalling under cyclic loading, the load-carrying capacity were decreased by buckling of longitudinal bars and steel angles. When continuous hoop was used, the deformability of the PSRC column was improved, preventing early buckling of the steel angles.

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Seismic Performance of RC Column-Steel Beam Connections for Large Columns

Park¹,

Lee²,

Kim³

et al. 2016

Journal of Korean Society of Steel Construction

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-Earthquake resistance of RC column-steel beam (RCS) joints with simplified details were studied. Simplified details are necessary for large columns to improve the productivity and constructability. To strengthen the beam-column joint, the effects of transverse beams, studs, and U-cross ties were used. Four 2/3 scale interior RCS connections were tested under cyclic lateral loading. The specimens generally exhibited good deformation capacity exceeding 4.0% story drift ratio after yielding of both beam and beam-column joint. Ultimately, the specimens failed by shear mechanism of the joint panel. The test strengths were compared with the predictions of existing design methods.

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Eccentric Axial Load Test for Concrete-Filled Tubular Columns Encased with Precast Concrete

Park¹

2014

Journal of Korean Society of Steel Construction

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-In this paper, concrete-filled steel tubular columns encased with precast reinforced concrete were studied. Four eccentrically loaded columns and a concentrically loaded column were tested to investigate the axial load-carrying capacity. The test parameters were the use of fiber reinforcement for cover concrete, eccentricity, column length, and lateral reinforcement. The maximum axial loads of the specimens agreed with the nominal strengths predicted by KBC 2009. However, in some specimens, the load carrying capacity quickly decreased after the peak strength due to spalling of the cover concrete.

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Performance of Shear Connectors in Concrete Mega Column-to-Steel Beam Connection

Park¹,

Baek²,

Hwang³

et al. 2012

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<p>In 123-story Lotte World Tower in Seoul, for constructability, concrete mega column is constructed by using auto-climbing forms without conventional column-to-beam connections. Instead, after the completion of the concrete work in the column, steel beams are attached to the face of the mega column by using shear connectors. Particularly, a belt truss, which transfers a huge gravity load to the mega column, is connected to the mega column by a large number of shear connectors distributed along four stories. In the present study, small scale specimens were tested to evaluate the performance of the shear connectors. The load-carrying capacity and deformation of the shear connectors were evaluated on the basis of the test results. To predict the strength of the shear connectors, various design methods were applied, and their validity was evaluated.</p>

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Hong Gun Park

Effects of Tie Details on Seismic Performance of RC Columns Subjected to Low Compression Loads

Cyclic Loading Tests for Prefabricated Composite Columns Using Steel Angle and Reinforcing Bar

Seismic Performance of RC Column-Steel Beam Connections for Large Columns

Eccentric Axial Load Test for Concrete-Filled Tubular Columns Encased with Precast Concrete

Performance of Shear Connectors in Concrete Mega Column-to-Steel Beam Connection

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