The aim of the course is to familiarize students with the basic and more complex tasks in the area of linear and nonlinear theory of shell structures. Besides teaching basic theory, attention is concentrated mainly on modern numerical solutions of shell structures using finite element method (FEM). Emphasis is placed on evaluating the strength, stability and fatigue of structures, in accordance with applicable standards and regulations, respectively by current knowledge of science and technology.
After completing the course Selected problems of thin-walled shell structures, the graduate is able to solve advanced problems in the area of linear and nonlinear shell structures. Student is familiar with both analytical methods (anchored in the current standards and regulations) and numerical methods of solution. Based on the achieved knowledge, the student is able to solve and evaluate the strength, stability and fatigue of shell structures in accordance with applicable regulations and standards or by current knowledge of science and technology, respectively.
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ECCS(1988) Buckling of Steel Shells. European Recomendation. 4.edition. Technical Committee 8-Structural Stability,Technical Working Group 8.4-Stability of Shells. 1988.
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ECCS(2008)Buckling of Steel Shell.European Design Recommendations.5.edit.. Published by ECCS, 2008. ISBN 92-9147-000-92.
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Bathe, K.,J., Wilson, E.,L. Numerical Methods in Finite Element Analysis. Englewood Cliffs. Prentice-Hall., 1976.
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Bushnell, D. Computerized buckling analysis of shells.Martinus Nijhoff publishers. Dordrecht / Boston / Lancaster. (1985) ISBN 90-247-3099-6.. Martinus Nijhoff publisers. Dordrecht/Boston/Lancaster, 1985. ISBN 90-247-3099-6.
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Esslinger, M., Geier, B. Postbuckling Behaviour of Structures. Springer- Verlag Wien-NewYork. 1975. Spring-Verlag, Wien-New York, 1975.
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Taylor, R.,L., Zienkiewicz, O.,C. The Finite Element for Solid and Structural Mechanics. 6.edit.. Elsevier, 1995. ISBN 0-7506-6321-9.
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Timoshenko, S. Theory of Elastic Stability. McGraw-Hill Book Company, Inc., New York and London.1936. McGraw-Hill Book Company,Inc.,N-Y and London, 1936.
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Volmir, A.,C. Ustojčivosť uprugich sistem.. Moskva,GIFML, 1963.
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Zienkiewicz, O.,C. The Finite Element Method in Engineering Science. 2. edit.. McGraw-HILL, London, 1971. ISBN 07-094138-6.
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