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Vestnik of Astrakhan State Technical University. Series: Management, Computer Sciences and Informatics, 2017, Number 1, Pages 7–17
(Mi vagtu462)
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MATHEMATICAL MODELING
The algorithm of calculation of the shell thickness, overcome spherical body
Yu. A. Komissarov, G. A. Malkov, N. N. Lyasnikova, M. A. Kiselev D. Mendeleev University of Chemical Technology of Russia
Abstract:
The algorithm of calculation of the maximum thickness of the plastic barriers, overcome spherical body with given geometric, kinematic and physical-mechanical parameters, which is based on the analysis of the deformation of a barrier and a spherical body. The technique uses the minimum parameters of the body and the obstacles presented in the relevant references. It does not require expensive mechanical and ballistic tests, based on the calculation of energy balance: energy barriers and deformation of a spherical body, the energy to move the body before the emergence of boundary stresses, leading to the destruction of barriers on the one hand and the initial kinetic energy of the spherical body with the other hand. The example used methodology (algorithm) of calculation, which showed that sufficiently accurate coincidence of the experimental and theoretical data.
Keywords:
thin-walled plastic barrier, spherical body, kinetic energy, strain energy, plastic module, the maximum of the barriers, the method of determining the thickness.
Received: 27.06.2016 Revised: 01.12.2016
Citation:
Yu. A. Komissarov, G. A. Malkov, N. N. Lyasnikova, M. A. Kiselev, “The algorithm of calculation of the shell thickness, overcome spherical body”, Vestn. Astrakhan State Technical Univ. Ser. Management, Computer Sciences and Informatics, 2017, no. 1, 7–17
Linking options:
https://www.mathnet.ru/eng/vagtu462 https://www.mathnet.ru/eng/vagtu/y2017/i1/p7
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Abstract page: | 87 | Full-text PDF : | 28 | References: | 17 |
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