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http://dx.doi.org/10.11112/jksmi.2014.18.1.048

Study on Reinforcement Effect of Circular RC Columns by Helical Bar Under Cyclic Lateral Load  

Kim, Seong-Kyum (금오공과대학교 토목공학과)
Park, Jong-Kwon (국토교통부 익산지방국토관리청)
Han, Sang-Hee (한라건설 해외사업본부)
Kim, Byung-Cheol (금호산업 토목사업팀)
Jang, Il-Young (금오공과대학교 토목환경공학부)
Publication Information
Journal of the Korea institute for structural maintenance and inspection / v.18, no.1, 2014 , pp. 48-58 More about this Journal
Abstract
In this study, quasi-static according to the displacement-controlled (strain control) method tests on RC columns for seismic reinforcement performance in accordance with the provisions of the seismic design and construction before 1992 design code for highway bridges in korea. Used reinforcement that improves the performance of Inorganic Helical Bar, a kind of alloy steel, circular columns were tested outside the seismic reinforcing. In the experiment, fracture behavior, lateral load-displacement relation, ductility and energy assessment evaluation was performed through tests. The variables in experimental are section force of reinforcement, spiral reinforcement spacing, reinforcement method. Improved seismic performance and effect were confirmed through quasi-static test experiments. The results of study confirmed determination the appropriate size of reinforcement, reinforcement forces, spacing and selection of the type required, furthermore, not only mechanical reinforcement but also substitution of high-strength concrete reinforced with concrete cover improved seismic performance.
Keywords
Quasi-static test; Helical bar; Seismic reinforcement; Circular column; Spiral reinforcement; Ductility evaluation; Energy assessment evaluation;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
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1 Design Code for Highway Bridges in Korea (2010), Korea Road & Transportation Association, Appendix (in Korean).
2 Han, J. H., Park, C. K., Shim, C. S., Chung, Y. S. (2006), Seismic Performance Evalution of SRC Column by Quasi- Stattic Test, Journal of the Earthquake Engineering Society of Korea, EESK, 10(4), 85-94.
3 Jang, I. Y., Kim, S. S., Park, J. K., Kim, S. K. (2011), Anti-seismic Capacity Improvement of Bridge Pier by Nickelhrome Alloy Bar, Journal of Korean society of hazard mitigation, Kosham, 11(5), 1-7.
4 Jeon, Y. C. (2001), A Study on the life of reinforced concrete building (focus on the neutralization of concrete and the corrosion of process of reinforcing bar), Kangwon national university, dept. of architectural engineering. 35-39.
5 Kim, J. B., Won, Y. S., Cho, C. H. (1999), An Experimental Study on the Structural Behavior of Reinforced Concrete Columns Rehabilitated with Epoxy-Bonded Steel Plates, Journal of the Korea Institute for Structural Maintenance and Inspection, KSMI, 3(3), 269-277.
6 Kim, T. H., Lee, K. M., Chung, Y. S., and Shin, H. M. (2005), Seismic Damage Assessment of Reinforced Concrete Bridge Columns, Engineering Structures, ES, 27(4), 576-592.   DOI   ScienceOn
7 Lee, J. H. (2011), Evaluation of structural behavior of RC columns strengthened with high-strength steel bars, Sungkyunkwan University. 20-27.
8 M. J. N. Priestley, F. Seible, G. M. Calvi (1996), Seismic Design And Retrofit Of Bridges, John Willey and Sons, Inc., New York, 120-125
9 Reinhorn, A. M. (1997), Seismic Resistance of Reinforced Concrete Pier with Carbon Fiber Sheet Retrofitting, Nonmetallic Reinforcement for Concrete Structures, JCI, l(1), 571-578.
10 Cho, S. G., So, G. H., Park, W. K. (2013), Investigation of Damping Ratio of Steel Plate Concrete (SC) Shear Wall by Lateral Loading Test & Impact Test, Journal of the Earthquake Engineering Society of Korea, EESK, 17(2), 79-88.   과학기술학회마을   DOI
11 Chung, Y. S., Park, J. H., Park, H. S. (2002), Seismic Performance Evaluation and Enhancement of Circular Reinforced Concrete Bridge Piers by Pseudo Dynamic test, Journal of the Korean Society of Civil Engineers, KSCE, 22(3-a), 499-509.   과학기술학회마을