Моделирование Напряженно-Деформированного Состояния Одноэтажного Каркасного Здания, Получившего Повреждения

Подшивалов, И. И.; Andrienko, I. A.

doi:10.31675/1607-1859-2022-24-6-119-128

Vestnik Tomskogo gosudarstvennogo arhitekturno-stroitelnogo uni

2022

DOI: 10.31675/1607-1859-2022-24-6-119-128

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Моделирование Напряженно-Деформированного Состояния Одноэтажного Каркасного Здания, Получившего Повреждения

И. И. Подшивалов

I. A. Andrienko²

Abstract: Аннотация. Объектом исследования является одноэтажное каркасное здание из сборного железобетона на монолитной фундаментной плите, расположенное в сейсмическом районе.Цель работы -моделирование напряженно-деформированного состояния одноэтажного каркасного здания, получившего повреждения после выполнения инструментального обследования, с учетом повреждений кирпичной кладки самонесущих стен, полученных при ранее произошедших землетрясениях.Строительство каркасного здания было выполнено без учета возможных сейсмич… Show more

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Modeling bending of wall panel multilayer structures

Yakubovskiy,

Donkova

2024

TSU Herald. Phys Math Model. Oil, Gas, Energy

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Precast-monolithic frame house building, use of stay-in-place formwork technology, improvement of concrete quality by means of additives and introduction of new materials are all innovations in the scope of high-rise construction. Thin wall panels formed by outer layers of structural steel sections and inner layers of concrete are used as structural elements of frame structures. The solution of structure elements strength problems is related to a stress-strain state analysis. Significant difficulties arise in calculation of structures having a complex geometric shape with different combinations of loads; such structures include thin wall composite systems. Reinforcing structural elements in composite plates and shells, such as stiffeners and rebars, makes the structure piecewise inhomogeneous. Constructive heterogeneity occurs in anchor connection of layers. Mathematical modeling of multilayer structures follows the methodology of the composite plates and shells theory. The nonlinear straining mathematical model takes into account shear stresses in joints. The problem was solved as the force functions using trigonometric Fourier series. A composite structure formed by three plates with anchor connections of layers has been calculated. The outer layers are steel, and the material of the inner layer is concrete filler. The variation effect of the forces that fall on each individual anchor depending on the stiffness of the anchor connections has been studied. The stress-strain state of the steel-concrete structure has also been studied. The effects associated with variations in the stress state due to the relationship of the steps between the anchors in two orthogonal directions, or the number of anchor connections in the joints has been revealed. Anchor connections ensure compatibility of different layers of a composite construction, but there are problems of strength of the anchor due to shear forces in the anchor areas where the loads are concentrated.

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Modeling bending of wall panel multilayer structures

Yakubovskiy,

Donkova

2024

TSU Herald. Phys Math Model. Oil, Gas, Energy

View full text Add to dashboard Cite

show abstract

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Моделирование Напряженно-Деформированного Состояния Одноэтажного Каркасного Здания, Получившего Повреждения

Cited by 1 publication

References 4 publications

Modeling bending of wall panel multilayer structures

Modeling bending of wall panel multilayer structures

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