Mechanics of Solids
A Journal of Russian Academy of Sciences

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Issues > Archive of Issues > 2013-1 > pp.57-67

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Total articles in the database:		11223
In Russian (Изв. РАН. МТТ):		8011
In English (Mech. Solids):		3212

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A.V. Azarov, "Theory of Composite Grid Shells," Mech. Solids. 48 (1), 57-67 (2013)

Year

2013

Volume

Number

Pages

57-67

DOI

10.3103/S0025654413010068

Title

Theory of Composite Grid Shells

Author(s)

A.V. Azarov (Bauman Moscow State Technical University, 2-ya Baumanskaya 5, Moscow, 105005 Russia, avazar@bk.ru)

Abstract

The grid shells formed by a system of edges are currently used in structures of various destination. In the last years, geodesic grid structures manufactured of modern composite materials by the winding method find increasingly wider applications in rocket-space technology as rocket transfer modules, spacecraft bodies, and load-carrying components of space platforms which have the form of cylindrical or conic shells. Grid composite shells are considered as promising elements of the passenger aircraft wing, empennage, and fuselage structures of sufficiently irregular shapes. In the present paper, general equations of the theory of composite grid shells are derived and their possible simplifications are considered.

Keywords

composite material, grid structure, shell theory

References

1.	G. I. Pshenichnov, Analysis of Cylindrical Grid Shells (Izdat. AN SSSR, Moscow, 1961) [in Russian].
2.	G. I. Pshenichnov, Theory of Elastic Thin Grid Shells and Plates (Nauka, Moscow, 1982) [in Russian].
3.	V. V. Vasiliev, V. A. Barynin, and A. F. Razin, "Anisogrid Lattice Structures - Survey of Development and Application," Compos. Struct. 54, 361-370 (2001).
4.	V. V. Vasiliev and A. F. Razin, "Anisogrid Composite Lattice Structures for Spacecraft and Aircraft Applications," Compos. Struct. 76 (1-2), 182-189 (2006).
5.	V. V. Vasiliev and G. P. Pichkhadze, "Composite Shells and Plates with Spatial Scheme of Reinforcement," in Design, Computation, and Testing of Composite Structures, No. 9 (Izdat. Dom TsAGI, Moscow, 1982), pp, 83-90 [in Russian].
6.	V. A. Bunakov, "Optimal Design of Composite Cylindrical Grid Shells," in Mechanics of Structures and Composite Materials, No. 26 (Mashinostroenie, Moscow, 1992), pp. 101-125 [in Russian].
7.	W. Nowacki, Theory of Elasticity (PWN, Warsaw, 1970; Mir, Moscow, 1975).

Received

30 March 2010

Link to Fulltext

http://link.springer.com/article/10.3103/S0025654413010068

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