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I. G. Emelyanov

MECHANICS OF SHELLS AND ITS APPLICATIONS

DOI: 10.17804/2410-9908.2018.2.006-028

The paper presents the results of applying shell theory methods to solving problems of determining the stress-strain state and durability of thin-walled structures. Some basic concepts and principles of the shell theory are given, as well as some information on its history. A relationship is shown between the construction of a mathematical model of a certain class of problems for shells and the development of a problem solution method. Frequently used shell models and numerical methods for solving applied problems are considered. A way of reducing problem dimensionality is considered; namely, the application of the method of reducing the equations of the theory of shells to a number of Cauchy problems with Godunov orthogonalization. It is shown that one type of problems for shells, which is often encountered in the analysis of various technical objects, is problems with moving boundaries, particularly, contact problems. The paper considers one of the effective ways of solving contact problems for shells of revolution, namely, the virtual element method. In contrast to the finite element method, an increase in the number of virtual elements does not increase the size of the structure stiffness matrix. This is a great advantage of the virtual element method, which allows one to save computational resources for many problems. The study presents scientific papers on the investigation of thin-walled structures and results obtained with allowance made for the use of application of recent methods of shell mechanics.

Keywords: shell elements, shell theory, evaluation of strength and durability, contact problems, problem dimensionality reduction, numerical methods, and virtual element method

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Article reference

Emelyanov I. G. Mechanics of Shells and Its Applications // Diagnostics, Resource and Mechanics of materials and structures. - 2018. - Iss. 2. - P. 6-28. -
DOI: 10.17804/2410-9908.2018.2.006-028. -
URL: http://eng.dream-journal.org/issues/2018-2/2018-2_165.html
(accessed: 12/30/2024).

 

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