COC 788 - Estruturas de Concreto I
Ementa
1. Introdução à Aplicação da Teoria da Plasticidade;
2. Análise não linear de seção de concreto armado sujeita a flexão composta reta e oblíqua;
3. Análise de vigas de concreto armado e protendido submetidas a esforço cortante;
4. Análise de vigas de concreto armado e protendido submetidas a momento de torção;
5. Análise de lajes de concreto armado e protendido;
6. Cisalhamento em lajes;
7. Cascas de revolução de concreto armado e protendido.
Bibliografia
1. W.F. Chen and D.J. Han, "Plasticity for Structural Engineers", Springer-Verlag, 1988.
2. Mario W. Kani, Mark W. Huggins and Rudi R. Wittkopp, "Kani on Shear in Reinforced Conrete", Departement of Civil Engineering, University of Toronto, Canada, 1979.
3. Stephen P. Timoshenko, "Theory of Plates and Shells", McGraw-Hill, 1959.
4. Ibrahim A.E.M. Shehata, “Concreto I”. Apostila de Curso, COPPE/UFRJ, 2006.
5. ACI-ASCE TASK COMMITTEE, "The Shear Strength of Reinforced Concrete Members", Journal of the Structural Division, vol.6, June 1973, pp. 1091-1109.
6. AL NAJJIM, A.G., "Post-Cracking Behaviour of Reinforced Concrete Deep-Beams", PhD thesis, Polytechnic of Central London, 1981.
7. ALSHEGEIR, A. and RAMIREZ, J.A., "Analysis of disturbed regions with Strut-and -Tie Models, Structural engineering, CE-STR-90-1.
8. ASCE-ACI TASK COMMITTEE, "The Shear Strength of Reinforced Concrete Members", Journal of the Structural Division, vol.6, June 1973, pp. 1091-1109.
9. BAUMANN, P., "Die Druckfelder bei der Stahlbetonbemessung mit Stabwerkmodellen, Dissertation, Institut für Tragwerksentwurf und Konstruktion, Universität Stuttgart, 1988.
10. CAMPBELL, T.I., CHITNYANONDH, L. AND BATCHELOR, B. de V., "Rigid -Plastic Theory v. Truss Analogy Method for Calculating the Shear Strength of reinforced Concrete Beams", Magazin of Concrete Research, vol. 32, n° 110, pp 39-44, march 1980.
11. CARNEIRO, L., "Aplicações da Teoria da Plasticidade ao Concreto", Publicação Interna n° 1.68, UFRJ, março 1968.
12. CHEN,G., "Plastic Analysis of Shear in Beams, Deep Beams and Corbels", Publication n° 237 of the Department of Structural Engineering, Thecnical University of Denmark, 1988.
13. COLLINS M.P. and MITCHELL, D., "Shear and Torsion Design of Prestressed and Non-Prestressed concrete Beams", PCI journal vol 25, n° 5, set-out 1980.
14. JUDICE, F. M. S., SHEHATA, I. A. E. M. , SHEHATA, L. C. D., "Shear strength of pre-cast prestressed composite beams with discontinuous connections made of cast-in-place shear keys", accepted paper, due for publication in Materials And Structures, RILEM, France, 2005.
15. SHEHATA, I. A. E. M., SHEHATA, L. C. D., GARCIA, S. L. G., “ Minimum Steel Ratios in Reinforced Concrete Beams Made with Different Strengths - Theoretical Approach", Materials And Structures, RILEM, France , v.36, n.jan-feb, p.3 - 11, 2003.
16. SHEHATA, I. A. E. M., CARNEIRO, L. A. V., SHEHATA, L. C. D., “Strength of Short Concrete Columns Confined with CFRP Sheets", Materials And Structures, RILEM, France , v.35, p.50 - 58, 2002.
17. SHEHATA, I. A. E. M., SHEHATA, L. C. D., MATTOS, T. S., “Stress-Strain curve for the design of high-strength concrete elements", Materials and Structures, RILEM, France, v.33, n.231, p.411 - 418, 2000.
Idioma
Português