Mechanics of Solids
A Journal of Russian Academy of Sciences

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Issues > Archive of Issues > 2006-3 > pp.75-80

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Total articles in the database:		12804
In Russian (Изв. РАН. МТТ):		8044
In English (Mech. Solids):		4760

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E. L. Gusev, "Limiting performance analysis of multilayered heat-stabilizing structures," Mech. Solids. 41 (3), 75-80 (2006)

Year

2006

Volume

Number

Pages

75-80

Title

Limiting performance analysis of multilayered heat-stabilizing structures

Author(s)

E. L. Gusev (Yakutsk)

Abstract

Considerable attention is currently given to issues of the numerical analysis and optimal design of layered structures with a prescribed set of properties [1-6]. This paper deals with a problem of optimal design of layered heat-stabilizing structures demonstrating the limiting performance properties with regard to thermal field suppression. Analysis of the interaction between the thermal fields and nonhomogeneous layered structures is important for many branches of physics, technology, and engineering. Heat-protection structural elements are widely used in power industries, metallurgy, geology, geophysics, heat technology, building industry, machine design, etc. In this connection, one of the most important problems is that of finding effective methods for controlling thermal action intensity by suitably choosing the characteristics of inhomogeneous structures.

References

1.	G. M. Kulikov, "Analysis of initially stressed multilayered shells," Int. J. Solids and Struct., Vol. 38, No. 26-27, pp. 4535-4555.
2.	I. A. Sobolev and B. G. Popov, "Modeling of thermal deformations of multilayered shell space structures," Inzh. Fiz. Zh., No. 6, pp. 27-31, 2001.
3.	Kim Jae-Yeol, Kwan Ik-No, and War K. Taek-Jin, "A numerical analysis method for layered plate with different material constants," Comput. and Struct., Vol. 79, No. 29-30, pp. 2663-2680, 2001.
4.	P. F. Pai and A. N. Palazotto, "A higher-order sandwitch plate theory accounting for 3-D stresses," Int. J. Solids and Struct., Vol. 38, No. 30-31, pp. 5045-5062, 2001.
5.	W. Nathau and J. W. Hatchinson, "Optimal trus plates," Int. J. Solids and Struct., Vol. 38, No. 30-31, pp. 5165-5183, 2001.
6.	A. A. Lezhnev, O. A. Nekrasova, and V. V. Poletaev, "Numerical analysis of protective barriers," Vestn. PGTU, Dinam. i Prochn. Mash., No. 3, pp. 72-76, 2001.
7.	E. L. Gusev, Mathematical Methods of Synthesis of Layered Structures [in Russian], Nauka, Novosibirsk, 1993.
8.	E. L. Gusev, Optimal Design of Multistage Systems [in Russian], Yakutsk, 1985.
9.	G. D. Babe and E. L. Gusev, "Necessary conditions of optimality for a class of discontinuous systems," BNTI, YaF CO AN SSSR, 1980, pp. 3-6.
10.	G. D. Babe and E. L. Gusev, "Numerical analysis of optimal heat-stable structures," BNTI, YaF CO AN SSSR, 1980, pp. 6-8.
11.	G. D. Babe abd E. L. Gusev, "Optimal design of layered polymer heat-protection structures," Mekh. Komposit. Mater., No. 3, pp. 480-485, 1981.
12.	Yu. S. Urzhumtsev, L. M. Nikitina, and G. D. Babe, "Heat-stability optimization of multilayered protective structures," Mekh. Komposit. Mater., No. 6, pp. 689-695, 1981.
13.	M. A. Kanibolotskii and Yu. S. Urzhumtsev, Optimal Design of Layered Structures [in Russian], Nauka, Novosibirsk, 1989.

Received

25 June 2004

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