Increase the Load of Loss of Stability for the Pillars of Large-Opening Halls

  • Marius BOTIȘ Transilvania University of Brasov, Department of Civil Engineering, Romania
  • Costel PLEȘCAN Transilvania University of Brasov, Department of Civil Engineering, Romania
Keywords: Monte Carlo method, moments of inertia of flat surfaces, probabilistic algorithms

Abstract

At the ground floor halls with an opening or more, the forces that are transmitted through the pillars due to gravitational loads (snow, and her weight) have high values. The gravitational difference that is transmitted to the pillars increases the greater the opening between the pillars is. In this Article we analyse the pillars of halls that are articulated recessed, because they have the advantage that the joints do not transmit bending moments. In the case of halls with large openings or halls rehabilitated or strengthened, to increase the critical load of loss of stability can increase the moment of inertia of the pillars from the recessed to the articulated end. In this Article, a parametric numerical study is presented, which establishes the critical load at a pillar with a variable section, depending on the length of the area where the moment of inertia of the slat has been increased.

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References

[1]. Ruocco E., Wang C., Zhang H., Challamel N., An approximate model for optimizing Bernoulli columns against buckling, Engineering Structures, vol. 141, p. 316-327, 2017.
[2]. Bănuț V., Teodorescu M. E., Calculul geometric neliniar al structurilor de rezistență, București: Cospress, 2010.
Published
2022-09-15
How to Cite
1.
BOTIȘ M, PLEȘCAN C. Increase the Load of Loss of Stability for the Pillars of Large-Opening Halls. The Annals of “Dunarea de Jos” University of Galati. Fascicle IX, Metallurgy and Materials Science [Internet]. 15Sep.2022 [cited 25Dec.2024];45(3):29-2. Available from: https://gup.ugal.ro/ugaljournals/index.php/mms/article/view/5501
Section
Articles