Stability of antenna support belts

Krasnoshchekov, Yu. V.; Zapoleva, M. Y.

doi:10.26518/2071-7296-2022-19-6-936-948

Vestn. SibADI

2023

DOI: 10.26518/2071-7296-2022-19-6-936-948

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Stability of antenna support belts

Yu. V. Krasnoshchekov

M. Y. Zapoleva²

Abstract: Introduction. The article deals with the issues of stability of compressed belts of lattice construction, as systems in the form of continuous rods consisting of panel elements. Currently, the estimated length of compressed elements is established by design standards for calculating stability without taking into account variability due to the influence of numerous random and systemic factors. This approach does not encourage the improvement of design solutions, the quality of their execution and the control of… Show more

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Cited by 2 publications

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An example of using the dynamic method in calculating the stability of the structure of a mobile service towerfor Soyuz-ST launch vehicle

Grigoriev

Menshikov

2023

EJSI

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To assess stability of large-sized spatial beam-rod structures loaded with several force factors, the paper proposes to use the frequency-modal method based on solving the problem of natural oscillations in a preloaded structure. This approach makes it possible to obtain stability margin coefficients from action of each loading component for structures with geometric or physical nonlinearity. Using this method implemented in the Siemens Femap with NX Nastran finite element software package, the paper analyzes design of the mobile service tower of the Soyuz-ST launch vehicle (Kourou Space Center, French Guiana). Results show significant increase in the stability margin coefficient in bearing strength for the system as a whole, when using dynamic approach compared to the standard approach based on the Eulerian theory of adjacent equilibrium states. The results obtained demonstrate effectiveness of the proposed method.

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An example of using the dynamic method in calculating the stability of the structure of a mobile service towerfor Soyuz-ST launch vehicle

Grigoriev

Menshikov

2023

EJSI

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Redistribution of efforts between the belts of four-belt towers

Krasnoshchekov,

Zapoleva

2024

Vestn. SibADI

Self Cite

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Introduction. The article presents the results of a study of the calculation features of four-belt towers depending on the direction of a wind action. The purpose of the article is to identify the conditions for the redistribution of forces in the belts of a grid tower under the action of a wind load along a diagonal of a square section and loss of stability of the most compressed belt. The attention is drawn to the fact that with the development of the process of loss of stability of the compressed belt, it does not turn off completely, but continues to partially carry the load. The data obtained indicate that it is possible to calculate all the elements and the tower as a whole according to a single scheme A (a wind pressure on the face of the tower), taking into account the coefficient of the wind angle. In the calculation example, graphical dependences of the forces in the belts on the resistance are obtained.Materials and methods. A feature of the calculation of four-belt towers is the dependence of the forces in the belts on the direction of the wind load. According to the maximum compression forces under the action of wind on the rib and bending of the tower, the cross section and length of the panel of all belts are assumed. The resulting reserve of strength and rigidity of the tower of the two belts in the limiting state adopted in the design standards is not possible to implement, since the limiting state of the compressed belts is assumed by the condition of stability in the form of bifurcation. If the limiting state of the belt panels is assumed according to the condition of bearing capacity in the supercritical stage of deformation, then it is possible to calculate the redistribution of compressible forces to reserve belts. In the given example, the criterion of resistance is used to analyze the redistribution of forces between the belts when the stability of the most compressed belt is lost according to the design scheme B (wind pressure on the tower rib).Conclusions. The results of modelling the tower calculation in the LIRA PC showed that taking into account the supercritical deformation of the compressed belt in the elastic stage makes it possible to calculate all the elements and the tower as a whole according to a single scheme A (a wind pressure on the face of the tower), taking into account the coefficient of the wind angle. At the same time, even with an increase in the coefficient value to 1.4 (instead of 1.2), the calculation efficiency is greater than the traditional one. The results of the study may be the basis for reducing the estimated length of the elements of the most compressed belt according to the calculated scheme B.

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Stability of antenna support belts

Cited by 2 publications

References 2 publications

An example of using the dynamic method in calculating the stability of the structure of a mobile service towerfor Soyuz-ST launch vehicle

An example of using the dynamic method in calculating the stability of the structure of a mobile service towerfor Soyuz-ST launch vehicle

Redistribution of efforts between the belts of four-belt towers

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