[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/scs.2013.14.5.473

Compressive performance with variation of yield strength and width-thickness ratio for steel plate-concrete wall structures

Choi, Byong-Jeong (Department of Plant Architectural Engineering, Kyonggi University)
Kim, Won-Ki (Department of Architectural Engineering, Hoseo University)
Kim, Woo-Bum (Department of Architectural Engineering, Kongju National University)
Kang, Cheol-Kyu (Department of Plant Architectural Engineering, Kyonggi University)

Publication Information

Steel and Composite Structures / v.14, no.5, 2013 , pp. 473-491 More about this Journal

Abstract

The primary objectives of this paper are to describe the buckling patterns and to determine the squash load of steel plate-concrete (SC) walls. The major variables in this study were the width-thickness (B/t) ratio and yield strength of surface steel plates. Six SC walls were tested, and the results include the maximum strength, buckling pattern of steel plates, strength of headed studs, and behavior of headed studs. Based on the test results, the effects of the B/t ratio on the compressive strength are also discussed. The paper also presents recommended effective length coefficients and discusses the effects of varying the yield strength of the steel plate, and the effects of headed studs on the performance of SC structures based on the test results and analysis.

Keywords

buckling; steel plate-concrete structure; B/t ratio; effective length factor; headed studs; SC structures;

Citations & Related Records

Times Cited By KSCI : 2 (Citation Analysis)

Reference
Cited By KSCI

1	Liu, D., Gho, W.M. and Yuan, J. (2003), "Ultimate capacity of high-strength rectangular concrete-filled steel hollow section stub columns", J. Construct. Steel Res., 59(12), 1499-1515. DOI ScienceOn
2	Liu, D. (2005), "Tests on high-strength rectangular concrete-filled steel hollow section stub columns", J. Construct. Steel Res., 61(7), 902-911. DOI ScienceOn
3	Liu, Y. and Young, B. (2003), "Buckling of stainless steel square hollow section compression members", J. Construct. Steel Res., 59(2), 165-177. DOI ScienceOn
4	Loov, R.E. (1998), "Review of A23.3-94 simplified method of shear design and comparison with results using shear friction", Can. J. Civil Eng., 25(3), 437-450. DOI
5	LRFD, AISC (2005), Load and Resistance Factor Design Specification, Chicago.
6	McKinley, B. and Boswell, L.F. (2002), "Behavior of double skin composite construction", J. Construct. Steel Res., 58(10), 1347-1359 DOI ScienceOn
7	Miyauchi, Y., Ozaki, M., Doutan, Y., Okiwara, R. and Usami, D. (1996), "Experimental study on a concrete-filled steel structure, compressive test (2)", Architectural Institute of Japan Conference - Part 2, 1073-1074
8	Takeuchi, M., Narikawa, M., Matsuo, I., Hara, K. and Usami, S. (1998), "Study on a concrete-filled structure for nuclear power plants", Nuclear Eng. Design, 179(2), 209-223. DOI ScienceOn
9	Tao Z., Han L. H. and Wang D. Y. (2008), "Strength and ductility of stiffened thin-walled hollow steel structural stub columns filled with concrete," Thin-Walled Struct., 46(10), 1113-1128. DOI ScienceOn
10	Tao, Z., Uy, B., Han, L.H. and Wang, Z.B. (2009), "Analysis and design of concrete-filled stiffened thin-walled steel tubular columns under axial compression," Thin-Walled Struct., 47(12), 1544-1556. DOI ScienceOn
11	Uy, B. and Bradford, M.A. (1996), "Elastic local buckling of steel plates in composite steel-concrete members", Eng. Struct., 18(3), 193-200. DOI ScienceOn
12	Uy, B. (2001), "Strength of short concrete filled high strength steel box columns", J. Construct. Steel Res., 57(2), 113-134. DOI ScienceOn
13	Uy, B., Tao, Z. and Han, L.H. (2011), "Behavior of short and slender concrete-filled stainless steel tubular columns", J. Construct. Steel Res., 67(2), 360-378. DOI ScienceOn
14	Kanchi, M., Kitano, C., Sgawara, D. and Hiragawa, K. (1996), "Experimental study on a concrete-filled steel structure, compressive test (1)", Architectural Institute of Japan Conference - Part 2, 1071-1072.
15	Vrcelj, Z. and Uy, B. (2002), "Strength of slender concrete-filled steel box columns incorporating local buckling", J. Construct. Steel Res., 58(2), 275-300. DOI ScienceOn
16	Han L.H. (2002), "Tests on stub columns of concrete-filled RHS sections", J. Construct. Steel Res., 58(3), 353-372. DOI ScienceOn
17	Han, L.H., Liu, W. and Yang, Y.F. (2008), "Behavior of thin walled steel tube confined concrete stub columns subjected to axial local compression", Thin-Walled Struct., 46(2), 155-164. DOI ScienceOn
18	Kim, W.B. and Choi, B.J. (2011), "Shear strength of connections between open and closed steel-concrete composite sandwich structures", Steel Compos. Struct., Int. J., 11(6), 169-181. DOI ScienceOn
19	Korea Electric Association (KEA) (2010), Steel-concrete structures (KEPIC-SNG), Korea Electric Power Industry code, Seoul, Korea.
20	Kwon, Y.B., Seo, S.J. and Kang, D.W. (2011), "Prediction of the squash loads of concrete-filled tubular section columns with local buckling", Thin-Walled Struct., 49(1), 85-93. DOI ScienceOn
21	Liang, Q.Q., Uy, B. and Richard Liew, J.Y. (2006), "Nonlinear modeling and evaluation of concrete-filled steel tubular columns with local buckling effects", J. Construct. Steel Res., 62(6), 581-591. DOI ScienceOn
22	AIJ, JEAG 4618 (2005), Technical guidelines for seismic design of steel plate JEAG 4618 , concrete structures: for buildings and structures.
23	Choi, B.J. and Han, H.S. (2009), "An experiment on compressive profile of the unstiffened steel plate-concrete structures under compression loading", Steel Compos. Struct., Int. J., 9(6), 519-534. DOI ScienceOn
24	Dabaon, M.A., El-Boghdadi, M.H. and Hassanein, M.F. (2009), "Experimental investigation on concrete-filled stainless steel stiffened tubular stub columns", Eng. Struct., 31(2), 300-307. DOI ScienceOn
25	Dabaon, M.A., El-Khoriby, S., El-Boghdadi, M.H. and Hassanein, M.F. (2009), "Confinement effect of stiffened and unstiffened concrete-filled stainless steel tubular stub columns", J. Construct. Steel Res., 65(8-9), 1846-1854. DOI ScienceOn
26	Galambos, Theodore V. (1998), Guide to stability criteria for metal structures, (5th Edition), John Wiley & Sons Inc., USA.

3	Arghya Kamal Chatterjee. (2015) Steel and Composite Structures Development of a simplified equivalent braced frame model for steel plate shear wall systems / 18 (3) , 711
	Salam J. Hilo. (2015) Thin-Walled Structures A state-of-the-art review on double-skinned composite wall systems / 97 , 74
	Yue Yang. (2016) Journal of Constructional Steel Research Buckling behavior of double-skin composite walls: An experimental and modeling study / 121 , 126
3	(2020) Journal of civil engineering and management PERFORMANCE STUDY OF SC WALL BASED ON EXPERIMENT AND PARAMETRIC ANALYSIS / 26 (3) , 227
6	(2013) Latin american journal of solids and structures Concrete-filled twin-layer steel-sheet CWs system: A systematic review of the literature / 18 (6) , e394