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This article is cited in 1 scientific paper (total in 1 paper)
Mathematical models and computer experiment
Mathematical model of high-pressure composite shell fracture under the impact of radiation energy flux
A. V. Ostrik, S. S. Slobodchikov Central Institute of Physics and Technology
Abstract:
A computational modeling method is presented on the fracture process of high-pressure composite shells under nonstationary heating by radiation fluxes of moderate density when physicochemical transformations and thermal inertness of composite material substantially effect the thermal energy propagation. Heat aspect of the problem takes into accaunt physicochemical transformations and their front motion deep into material. Deformation and fracture of multilayer material in the high-pressure composite shell casing are calculated within the limits of the composite material model with a brittle polymer binder. Results are supposed to be presented in the plane of surface density levels of energy and fluxes.
Received: 12.08.1994 Revised: 22.03.1995
Citation:
A. V. Ostrik, S. S. Slobodchikov, “Mathematical model of high-pressure composite shell fracture under the impact of radiation energy flux”, Matem. Mod., 7:10 (1995), 33–46
Linking options:
https://www.mathnet.ru/eng/mm1801 https://www.mathnet.ru/eng/mm/v7/i10/p33
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Abstract page: | 472 | Full-text PDF : | 188 | First page: | 2 |
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