Numerical Investigation of Reinforced Concrete Beam Due to Shear Failure
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Vecchio FJ, Collins MP. The modified compression-field theory for reinforced concrete elements subjected to shear. ACI Journal 1986;83(2):219–231.
Liu R, Pantelides CP. Shear capacity of concrete slabs reinforced with glass-fiber-reinforced polymer bars using the modified compression field theory. PCI Journal 2012;57(3):83–99.
Sadeghian V, Vecchio F. The modified compression field theory: then and now. ACI Struct J, Special Publication (SP-328: Shear in Structural Concrete) 2018;p. 3.1–3.20.
Piscesa B, Attard MM, Prasetya D, Samani AK. Modeling cover spalling behavior in high strength reinforced concrete columns using a plasticity-fracture model. Engineering Structures 2019;196:109336.
Cervenka J, Papanikolaou VK. Three dimensional combined fracture-plastic material model for concrete. International Journal of Plasticity 2008;24(12):2192–2220.
Vecchio FJ, Shim W. Experimental and Analytical Reexamination of Classic Concrete Beam Tests. Journal of Structural Engineering 2004;130(3):460–469.
Piscesa B, Attard MM, Samani AK. 3D Finite element modeling of circular reinforced concrete columns confined with FRP using a plasticity based formulation. Composite Structures 2018;194:478–493.
Dang HK, Yacoub T, Curran J, Visser M, Wai D. Evaluate the performance of an accelerated initial stiffness method in three dimensional finite element analysis. Computers and Geotechnics 2014;62:293–303.
Borst RD, Crisfield MA, Remmers JJ, Verhoosel CV. Nonlinear Finite Element Analysis of Solids and Structures. John Wiley & Sons, 2012. 2 ed. United Kingdom: John Wiley & Sons Ltd; 2012.
Henderson A. The Paraview Guide: a Parallel Visualization Application. New York, US: Kitware, Inc; 2015.
Piscesa B, Attard MM, Samani AK. A lateral strain plasticity model for FRP confined concrete. Composite Structures 2016;158:160–174.
Piscesa B, Attard M, Samani A, Tangaramvong S. Plasticity constitutive model for stress-strain relationship of confined concrete. ACI Structural Journal 2017;114(2):361–371.
Areias P, Dias-Da-Costa D, Pires EB, Barbosa JI. A new semi-implicit formulation for multiple-surface flow rules in multiplicative plasticity. Computational Mechanics 2012;49(5):545–564.
Hu C, Liu H. Implicit and explicit integration schemes in the anisotropic bounding surface plasticity model for cyclic behaviours of saturated clay. Computers and Geotechnics 2014;55:27–41.
Cervenka J, Cervenka V, Laserna S. On finite element modeling of compressive failure in brittle materials. Computational Modelling of Concrete Structures 2014;1:273–281.
Christianto AB, Piscesa, Bambang Faimun F, Aji P. Finite element modeling of circular reinforced concrete column confined with CFRP under eccentric loading. Journal of Civil Engineering 2019;34(2):49–54.
Prasetyo AD, Piscesa B, Rasyid HA, Prasetya D. 3D non-linear finite element analysis of concentrically loaded high strength reinforced concrete column with GFRP bar. Journal of Civil Engineering 2020;35(1):8–13.
Alius F, Piscesa B, Faimun F, Alrasyid H, Iranata D. Non-linear finite element analysis of reinforced concrete deep beam with web opening. Journal of Civil Engineering 2020;35(1):3–7.
Markou G, Papadrakakis M. An efficient generation method of embedded reinforcement in hexahedral elements for reinforced concrete simulations. Advances in Engineering Software 2012;45(1):175–187.
Hughes TJR. The Finite Element Method: Linear Static and Dynamic Finite Element Analysis. United States: Dover Publications, Inc; 2012.
Bresler B, Scordelis AC. Shear strength of reinforced concrete beams. Journal Proceedings 1963;60(1):51–74.
Attard MM, Setunge S. Stress-strain relationship of confined and unconfined concrete. ACI Materials Journal 1996;93(5):432–442.
Samani AK, Attard MM. A stress-strain model for uniaxial and confined concrete under compression. Engineering Structures 2012;41:335–349.
Luc Taerwe, Stijn Matthys. fib Model Code for Concrete Structures 2010. Berlin, German: Ernst & Sohn, Wiley; 2013.
DOI: http://dx.doi.org/10.12962/j20882033.v31i3.7385
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