Structural Concrete: Finite-element Analysis for Limit-state Design download epub
by D Kotsovos,Milija N Pavlovic
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Milija N. Pavlović Structural Concrete-Finite Element Analysis for Limit-State Design.
After all, designing a structural concrete member to its ultimate limit state requires the assessment of the load-carrying capacity of the member and this provides a clearer indication of the margin of safety against collapse. At the same time, the high internal stresses which develop at the ultimate limit state result in a reduction of the member cross-section and the amount of reinforcement required to sustain internal actions. Structural Concrete-Finite Element Analysis for Limit-State Design.
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Analysis Brittle concrete Design Short-term static and dynamic loading Structural concrete. A fundamental explanation of the behaviour of reinforced concrete beams in flexure based on the properties of concrete under multiaxial stress. RILEM 15(90), 529–537 (1982)Google Scholar. Effect of testing techniques on the post-ultimate behaviour of concrete in compression. RILEM 16(91), 3–12 (1983)Google Scholar.
It offers new theoretical insight and practical advice on why finite element results are 'wrong,' why support reactions are relatively accurate, why stresses at midpoints are more reliable, why averaging the stresses sometimes may not help or why the equilibrium conditions are violated
Ultimate limit-state design for concrete structures will provide designers with a practical and easily applied method for the design of a concrete structure, which is fully compatible with the behaviour of concrete (as described by valid experimental evidence) at both the material and structural level.
Ultimate limit-state design for concrete structures will provide designers with a practical and easily applied method for the design of a concrete structure, which is fully compatible with the behaviour of concrete (as described by valid experimental evidence) at both the material and structural level. Vista previa del libro . Comentarios de usuarios - Escribir una reseña. No hemos encontrado ninguna reseña en los sitios habituales. Páginas seleccionadas.
A nonlinear finite element program for concrete structures is outlined .
A nonlinear finite element program for concrete structures is outlined, with emphasis on the material modelling. It is shown that the package can be used with confidence in the analysis of practical structural forms. Michael D. Kotsovos (Department of Civil Engineering, Imperial College, London SW7 2BU, UK). Milija N. Pavlović (Department of Civil Engineering, Imperial College, London SW7 2BU, UK). Engineering Computations. Publication date: 1 March 1986.
Michael D. Kotsovos, Milija N. Pavlovic and Demetrios M. Cotsovos. The present article summarises the fundamental characteristics of concrete behaviour which underlie the formulation of an engineering finite element model capable of realistically predicting the behaviour of (plain or reinforced) concrete structural forms in a wide range of problems ranging from static to impact loading without the need of any kind of re-calibration.
28. ASCE task committee on finite element analysis of reinforced concrete structures.
Structural concrete: finite-element analysis for limit-state design // Thomas Telford Publishing, 1995. Numerical simulation of axial crushing of circular tubes // Journal of King Abdulaziz University: Engineering sciences. Vol. 14, No. 2 (2002), p. 3-17. A Source Book, extended and updated version // Ignalina Safety Analysis Group, Lithuanian Energy Institute, 1998. 28. State-of-the-art report on finite element analysis of reinforced concrete, ASCE Special publications.
Category: Engineering & Transportation
Publisher: Thomas Telford Publishing (January 1, 1995)
Pages: 512 pages