NONLINEAR ANALYSIS OF STATICALLY INDETERMINATE WOODEN STRUCTURES AND OPTIMIZATION OF CROSS SECTION DIMENSIONS OF DOME RIBS | International Journal for Computational Civil and Structural Engineering

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Published: Dec 21, 2018

DOI: https://doi.org/10.22337/2587-9618-2018-14-4-130-139

Keywords:

laminated wood domes, plastic deformations, complex stress state, numerical calculations, integral module method, rational dimensions of element cross-sections

Konstantin P. Pyatikrestovsky

JSC «Research Centre "Construction" the Central Scientific Research Institute of Building Constructions named after V.A. Kucherenko, Moscow, RUSSIA

Boris S. Sokolov

JSC «Research Centre "Construction" the Scientific Research Design and Technological Institute of Concrete and Re-inforced concrete named after A.A. Gvozdev, Moscow , RUSSIA

Abstract

The analysis of the behaviour of natural structures of laminated wood domes and the numerous preliminary calculations have shown the possibility of saving materials by reducing the height of cross sections of meridional ribs. This is especially effective when you include in design of skins, performing a role of building shell, the collaboration with frame elements (annular and longitudinal ribs). Multiple static indeterminacy of such structure allows its non-linear work and the redistribution of forces under nonuniform loads. At the same ime, the skin carries a significant part of the forces appearing in the shell and the ribs are underloaded. The tress-strain states of all elements are investigated. For the frame analysis the calculation is performed by the method of integral module that allows controlling strength resistance of a structure at any moment of its operation. The design recommendations for section dimensions of a shell are developed.

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Pyatikrestovsky, K. P., & Sokolov, B. S. (2018). NONLINEAR ANALYSIS OF STATICALLY INDETERMINATE WOODEN STRUCTURES AND OPTIMIZATION OF CROSS SECTION DIMENSIONS OF DOME RIBS. International Journal for Computational Civil and Structural Engineering, 14(4), 130–139. https://doi.org/10.22337/2587-9618-2018-14-4-130-139

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Vol. 14 No. 4 (2018): International Journal for Computational Civil and Structural Engineering

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