JKSMI
Journal of the Korea Institute for
Structural Maintenance and Inspection
KSMI
Contact
Open Access
Bi-monthly
ISSN : 2234-6937 (Print)
ISSN : 2287-6979 (Online)
http://journal.auric.kr/jksmi/
Mobile QR Code
Journal of the Korea Concrete Institute
J Korea Inst. Struct. Maint. Insp.
Indexed by
Korea Citation Index (KCI)
Main Menu
Main Menu
About Journal
Aims and Scope
Subscription Inquiry
Editorial Board
For Contributors
Instructions For Authors
Ethical Guideline
Crossmark Policy
Submission & Review
Archives
Current Issue
All Issues
Journal Search
Home
All Issues
2025-10
(Vol.29 No.5)
10.11112/jksmi.2025.29.5.141
Journal XML
XML
PDF
INFO
REF
References
1
Hensel J., Nitschke-Pagel T., Ngoula D. T., Beier H. T., Tchuindjang D., and Zerbst U. (2018), Welding residual stresses as needed for the prediction of fatigue crack propagation and fatigue strength. Engineering Fracture Mechanics, 198, 123-141.
2
You B. I., Son D. H., Bae B. I., Eom S.S., and Choi C. S. (2022), Performance of Concentrically Loaded Assembled CFT Column with Length of Ribs. Journal of Korea Concrete Institute, 34(2), 143-151 (in Korean).
3
Song S., Son D. H., Bae B. I., Um S. S., and Choi C. S. (2024), Axial load behavior of CFT columns assembled with rectangular wave-shaped ribs. Structures, 61, 106027.
4
AISC 360-22. (2016), Specification for Structural Steel Buildings, American Institute of Steel Construction.
5
KDS 14 31 10. (2022), Design code for steel-concrete composite structures in buildings, Korean Design Standard.
6
AIJ (2012), Guidebook on design of concrete filled steel tubular structures, Architectural Institute of Japan.
7
Song S. (2024), Evaluation of ultimate compressive strength of CFT columns assembled with tooth-shaped RIB under concentric load, Hanyang University.
8
Xu Y., Shao Y. B., Hassanein M. F., and Silvestre N. (2022), Innovative compressive design resistance and behaviour of concrete-filled short columns with stiffened square steel sections, J. Constr. Steel Res, 198, 107510.
9
Song S., Son D. H., Bae B. I., Lee M. S., and Choi C. S. (2024), Finite element analysis for axial compressive behavior of CFT columns assembled with rectangular wave-shaped ribs. Structures, 69, 107324.
10
Lai Z., and Varma A. H. (2014), Analysis and Design of Noncompact and Slender Concrete-filled Steel Tube (CFT) Beam-columns. Structural Stability Research Council.
11
Nguyen P. C., Pham D. D., Tran T. T., and Nghia-Nguyen T. (2021), Modified Numerical Modeling of Axially Loaded Concrete-Filled Steel Circular-Tube Columns. Engineering, Technology & Applied Science Research, 11(3), 7094-7099.
12
Tao Z., Wang X. Q., and Uy B. (2013), Stress–strain curves of structural and reinforcing steels after exposure to elevated temperatures. J Mater Civ Eng, 25(9).
13
Tao Z., Wang Z. B., and Yu Q. (2013), Finite element modelling of concrete-filled steel stub columns under axial compression. J. Constr. Steel Res, 89, 121-131.
14
Yang K. H., Mun J.H., Cho M.S., and Kang T. H. K. (2014), Stress-Strain Model for Various Unconfined Concretes in Compression. ACI Structural Journal, 11(4), 819-826.
15
Du Y., Fu M., Chen Z., Yan J. B., and Zheng Z. (2022), Axial compressive behavior of CFRP confined rectangular CFT columns using high-strength materials: Numerical analysis and carrying capacity model. Structures, 36, 997-1020.
