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Purpose: An analysis of the static load - carrying capacity of rectangular reinforced concrete deep beam taking into account the physical nonlinearities of structural materials: concrete and reinforcing steel, was the aim of the paper. Design/methodology/approach: The model of the elastic-perfectly plastic material was applied for the reinforcing steel. The reduced, static form of non-standard model of dynamic deformation, with regard to the material softening was applied for the concrete. The method of structure effort analysis was developed using the finite element method. Findings: The results of numerical solutions were presented with comparison to the experimental results and other numerical results taken from the literature. Very good agreement of the numerical results was obtained in comparison with the experimental results in the range of the load - carrying capacity and the displacement state analysis. Research limitations/implications: The effectiveness of the method analysis and computational algorithms for the problems of numerical simulation of reinforced concrete deep beam behaviour was indicated in the paper. Practical implications: The developed method can be applied to the effort analysis of the different reinforced concrete structural elements behaving in the complex stress states. Originality/value: The stress state in the deep beam was illustrated in the form of the stress distribution over the characteristic cross-sections as well as in the form of the scheme of the material effort on the surface of the structure.
Wydawca
Rocznik
Tom
Strony
37--44
Opis fizyczny
Bibliogr. 9 poz., rys.
Twórcy
autor
- Faculty of Civil Engineering and Geodesy, Military University of Technology, ul. Kaliskiego 2, 00-908 Warszawa, Poland
autor
- Faculty of Civil Engineering and Geodesy, Military University of Technology, ul. Kaliskiego 2, 00-908 Warszawa, Poland
Bibliografia
- [1] O. Buyukozturk, Nonlinear analysis of reinforced concrete structures, Computers and Structures 7 (1977) 149-156.
- [2] H. Floegl, H. Mang, Tension stiffening concept based on bond slip, Journal of the Structural Division 108 (1982) 2681-2701.
- [3] J.M. Minch, A. Trochanowski, The Numerical Modelling and Analysis of RC Cracked Structures, Proceedings of the International Conference on Challenges to Civil and Mechanical Engineering in 2000 and Beyond, Wroclaw, 1997, 261-270.
- [4] P.M. Lewiński, Nonlinear analysis of reinforced concrete slabs and disks by the finite element method, PWN, Warsaw-Lodz, 1990 (in Polish).
- [5] P.M. Lewiński, W. Wojewódzki, Integrated Finite Element Model for Reinforced Concrete Slabs, Journal of Structural Engineering 117/4 (1991) 10171038.
- [6] F. Leonhardt, R. Walther, Wandartige träger. Report. Deutscher Ausschüβ für Stahlbeton, 229, Berlin, Germany, 1966.
- [7] A. Stolarski, W. Cichorski, The method of analysis of the inelastic behaviour of the reinforced concrete deep beam under static load, Bulletin of Military University of Technology10/578 (2000) 5-30 (in Polish).
- [8] A. Stolarski, Model of dynamic deformation of concrete, Archives of Civil Engineering 3/4 (1991) 405-447 (in Polish).
- [9] A. Stolarski, Modelling of concrete behaviour in numerical analysis of R/C structures, Proceedings of the 3rd International Conference on Analytical Models and New Concepts in Mechanics of Concrete Structures. Wroclaw – Swieradow Zdroj, Poland, 1999, 237-244.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c509350e-c310-4f95-bdf3-f292d5032502