JKCI
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the Korea Concrete Institute
KCI
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ISSN : 1229-5515 (Print)
ISSN : 2234-2842 (Online)
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Journal of the Korea Concrete Institute
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J Korea Concr Inst.
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2023-08
(Vol.35 No.4)
10.4334/JKCI.2023.35.4.409
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References
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ACI-ASCE Committee 445 (2002) Examples for the Design of Structural Concrete with Strut-and-Tie Models (ACI SP-208). Farmington Hills, MI: American Concrete Institute (ACI).
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ACI-ASCE Committee 445 (2010) Further Examples for the Design of Structural Concrete with Strut-and-Tie Models (ACI SP-273). Farmington Hills, MI: American Concrete Institute (ACI).
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8
CSA Committee A23.3-14 (2014) Design of Concrete Structures for Buildings (CAV3-A23.3-14). Toronto, ON, Canada: Canadian Standards Association (CSA).
9
Kaufman, M. K., and Ramirez, J. A. (1988) Re-evaluation of the Ultimate Shear Behavior of High-Strength Concrete Prestressed I-Beams. ACI Sturctural Journal 85(3), 295-303.
10
Saqan, E. I., and Frosch, R. J. (2009) Influence of Flexural Reinforcement on Shear Strength of Prestressed Concrete Beams. ACI Structural Journal 106(7), 60-68.
11
Shahawy, M. A., and Batchelor, B. D. (1996) Shear Behavior of Full-Scale Prestressed Concrete Girders: Comparison Between AASHTO Specifications and LRFD Code. PCI Journal 41(3), 48-62.
12
Tan, K. H., and Mansur, M. A. (1992) Partial Prestressing in Concrete Corbels and Deep Beams. ACI Structural Journal 89(3), 251-262.
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Vecchio, F. J., and Collins, M. P. (1982) The Response of Reinforced Concrete to In-plane Shear and Normal Stresses. Publication No. 82-03, Department of Civil Engineering, University of Toronto, Canada.
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Yun, Y. M. (2021) Numerical Method for the Strength of Two- dimensional Concrete Struts. Computers and Concrete 28(6), 621-634.
