Calculation of Non-Homogeneous Anisotropic Rectangular Plates with Arbitrary Fixation on the Contur

Nikolay Zavrak

doi:10.4028/www.scientific.net/MSF.968.444

Paper Titles

Determination of the Stress State of the Layer with a Cylindrical Elastic Inclusion
p.413

Dynamic Smoothing Effect in Non-Linear Dynamic System under Polyharmonic External Excitation
p.421

Dynamics of Elastic Objects under Movable Inertial Loading - Some Features of the Mathematical Models and Analogies
p.427

Investigation of Free Vibrations of Three-Layered Circular Shell Supported by Annular Ribs of Rigidity
p.437

Calculation of Non-Homogeneous Anisotropic Rectangular Plates with Arbitrary Fixation on the Contur
p.444

Analytic Formulas for the Cantilever Structures' Natural Frequencies with Taking into Account the Dead Weight
p.450

The Solution of the Shells Theory Problems by the Numerical-Analytical Boundary Elements Method
p.460

Calculation of Stresses near Holes in Welded Plates Taking Account of the Residual Deformations
p.468

Exact Solution of the Problem of Elastic Bending of a Multilayer Beam under the Action of a Normal Uniform Load
p.475

HomeMaterials Science ForumMaterials Science Forum Vol. 968Calculation of Non-Homogeneous Anisotropic...

Calculation of Non-Homogeneous Anisotropic Rectangular Plates with Arbitrary Fixation on the Contur

Abstract:

The developing of the effective methodic of elastic orthotropic plates’ calculation and the research on the base of their state under different boundary conditions are of great importance nowadays. The representation of the received results in the form, convenient for practical use, is also important. For practical applications in engineering are important tables for determining deflections and internal forces of structures. Such tables for the isotropic case under various conditions of plate support on the contour are given in many works. As for the anisotropic plates, there are no such tables, with the exception of one Huber table compiled for a freely supported rectangular orthotropic plate, depending on the relationship between the stiffness values. Here is a method of calculating the non-homogeneous anisotropic rectangular plates with arbitrary fixation on the contour is set forth, which is reduced to a boundary value problem. The main idea of a calculated general methodic of linear marginal differential tasks calculation is based on underlying of the main part of a solution. Such approach is proved by means of development and some generalization of common positions of a variational method of marginal tasks of mathematical physics of self-conjugated tasks solution. To solve a system of equations in terms of displacements using finite difference method (FDM) in combination with different variations of analytical solutions. It is advisable to construct a numerical solution of the problem so that in difficult cases the support fixing and uploading solution sought, not directly, but in the form of amendments to the known solution for simple cases of reference to consolidate and uploading at finding the solutions which the analytical methods or the FDM with sparse mesh may be used. Given as examples are the results of calculation for a series of square orthotropic plates with a fixed boundary under the action of uniformly distributed load.

You might also be interested in these eBooks

Actual Problems of Engineering Mechanics

View Preview

Info:

Periodical:

Materials Science Forum (Volume 968)

Pages:

444-449

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.968.444

Citation:

Cite this paper

Online since:

August 2019

Authors:

Nikolay Zavrak*

Keywords:

Contour, Non-Homogeneous Anisotropic Rectangular Plates, Regional Task, Supporting Fixing

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] A. Ya. Alexandrov, L. M. Kurshin. Multilayered plates and shells. Works VІІ Vsesoyuz. konf. According to the theory of shells and plates. M., Science, 1970, pp.714-721.

Google Scholar

[2] D. V. Weinberg, Е. D. Weinberg. Plate calculation. К., Budivelnik, (1970).

Google Scholar

[3] P. M. Varvak, L. P. Varvak. Nets' method in calculation tasks of building constructions. М., Stroiizdat, (1977).

Google Scholar

[4] N. V. Zavrak. Calculation of non-homogeneous anisotropic rectangular plates with arbitrary fixing on the contour. Visnik of the Odessa State Academy of Civil Engineering and Architecture. Odessa, Atlant, 2016. №64, pp.72-76.

Google Scholar

[5] M.G. Krein. The theory of self-adjoint extensions of semi-bounded Hermitian transformation and its application. P. 1, Matem. co. Vol. 20 (62) № 3, 1947, pp.431-490; P. 2, Matem. co. Vol. 21 (63) № 3, 1947, pp.365-404.

Google Scholar

[6] G. Markus. The theory of an elastic mesh and its application to the slabs and without beam overlaps calculation. GNTI of Ukraine, (1936).

Google Scholar

[7] D. Yu. Panov. The manual in numerous solutions of differential equations in separate derivatives. Gostechizdat, М.-L., (1950).

Google Scholar

[8] A.S. Rasskazov, I.I. Sokolovskaya, N.A. Shulga. Theory and calculation of layered orthotropic plates and shells. K., Vishcha school, (1986).

Google Scholar

[9] Z. H. Rafalson. To the question of the solution of a biharmonic equation. RAS the USSR. – Volume LXIV. №6, 1949, pp.709-802.

Google Scholar

[10] I. N. Slezinger. About one way of solving of linear edge tasks of self-adjoined type. Applied Mathematics & Mechanics. Volume. ХХ, Instal 6, 1956, pp.704-713.

Google Scholar

[11] S. P. Timoshenko, S. Voinovskiy-Kriger. Plates and shells. М., Phizmatgiz, (1963).

Google Scholar

[12] A. P. Filipov, V. N. Bulgakov and others. Numerical methods in the applied theory of elasticity. K., Nauk. Dumka, (1968).

Google Scholar