Study on Shear Strength of Reinforced Concrete T Beams based on the Size Effect
Authors
-
,CN
Hao-xiong Feng -
,CNWei-jian YI
DOI:
https://doi.org/10.18311/ijprvd/2022/30694Keywords:
Reinforced Concrete T Beams, Shear, Size Effect, Matlab.Abstract
Size effect has great influence on the shear strength of reinforced concrete T beams, flange width changes the shear mechanism of reinforced concrete T beams. In combination with shear database, comparing the calculation results of formula based on the effective flange width with other specifications formulas by means of Matlab, the flange width can increase the shear capacity of reinforced concrete T beams, and the recommended formula considering the effective flange width is reasonable.
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Accepted 2022-07-12
Published 2022-07-12
References
ASCE-ACI Committee 445. Recent approaches to shear design of structural oncrete. Journal of Structural Engineering, 1998, 124(12): 1375-1417.
Walraven J, Lehwalter N. (1994): Size effects in short beams loaded in shear[J]. ACI Structural Journal, 91 (5): 585-593.
Bazant Z P, Kazemi M T. (1991): Size effect on diagonal shear failure of beams without stirrups. ACI Structural Journal, 88(3): 268-276.
Evan C. Bentz, Frank J. Vecchio, Michael P. Collins. (2006): Simplified modified compression field theory for calculating shear strength of reinforced concrete elements. ACI Structural Journal, 103(4): 614-624.
Prodromos D. Zararis. (2003): Shear Strength and Minimum Shear Reinforcement of Reinforced Concrete Slender Beams. ACI Structural Journal, 100 (2): 203-214.
Quzhe. (2012): Experimental Research on the Size Effect on Shear Strength of FRP-strengthened Concrte beam. Master thesis, tsinghua university.
CCCC Highway Consultants. (2004): Code for Design of Highway Reinforced Concrete and Prestressed Concrete Bridges and Culverts structures (JTG D62-2004). Beijing: China Communications Press.
Yi Weijian. Experimental and theoretical research on concrete structure. Beijing: Science ress, 2012, 309-310.
Kani G N J. (1967): How safe are our large reinforced concrete beams? ACI Journal, Proceedings, 64 (3): 128-141.
ACI Committee 318, Building Code requirements for structural concrete and commentary. American concrete institute, Farmington hills 2014.
Zararis, P. D., and Papadakis, G., (2001): “Diagonal Shear Failure and Size Effect in RC Beams without Web Reinforcement,” Journal of Structural Engineering, ASCE, V. 127, No. 7, July 2001, pp. 773-742.
Ioannis P.Zararis, Maria K.Karaveziroglou, and Prodromos D. Zararis. (2006): Shear strength of Reinforced Concrete T-beams. ACI Structural Journal, 103(5): 693-700.
Feng Haoxiong, Yi Weijian. (2016): Shear Strength of Reinforced Concrete T Beams Considering Effective Flange Width. Journal of Jiangsu University, (37): 462-466.
A. Koray Tureyen, Tyler S. Wolf, and Robert J. Frosch. (2006): Shear Strength of Reinforced Concrete T-Beams without Transverse Reinforcement. ACI Structural Journal, 103 (5): 656-663.
China Academy of Building Research. Code for design of concrete structures (GB 50010-2010). Beijing: China Architecture & Building Press, 2010.
