The influence of bracing on the stress state of the ribbed-ring dome framework

E. Lebed
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Abstract

The aim of current research was to establish the relationship between the stress state of the ribbed-ring dome framework and the degree of its bracing. It was assumed that the meridional ribs and rings of the dome framework are made of metal. The framework of the dome consists of 24 ribs and 7 rings. The study was performed for a ribbed-ring dome of spherical shape with a span of 39.3 m and a height of 11.0 m on computer models. The initial computer model of the framework of a ribbed-ring dome made of steel I-beams without bracing has been developed. On the basis of the initial model, additional models were developed for the frameworks with bracing between meridional edges in four, eight cyclically symmetric sectors and in all sectors. Both for the initial model and for all models of the dome framework with bracing, computer calculations were performed for the effect of the load from the own weight of the load-bearing and enclosing structures, and two variants of the snow load. During the calculations, deformations, internal forces and stresses in the meridional ribs, upper and intermediate rings of different models were determined, which were compared with each other. Graphs of changes in deformations of the frame, graphs and diagrams of changes in internal forces and stresses in the meridional ribs, in the upper and intermediate rings of the dome, depending on the degree of bracing in the framework, are obtained. An assessment of the influence of bracing on the stress state of the rib-ring dome frame is performed. The peculiarities of the influence of different coupling schemes on the stressed state of the dome frame are noted.
支撑对肋环穹顶框架受力状态的影响
目前的研究目的是建立肋环穹顶框架的应力状态与其支撑程度之间的关系。假设圆顶框架的子午肋和环由金属制成。圆顶的框架由24个肋和7个环组成。这项研究是在计算机模型上对跨度为39.3米、高度为11.0米的球形肋环穹顶进行的。建立了无支撑工字钢肋环穹顶结构的初始计算机模型。在初始模型的基础上,为四个、八个循环对称扇区和所有扇区的子午线边缘之间具有支撑的框架开发了额外的模型。对于初始模型和带支撑的圆顶框架的所有模型,都对承载和围护结构自重以及雪荷载的两种变体的荷载影响进行了计算机计算。在计算过程中,确定了不同模型的子午肋、上环和中环的变形、内力和应力,并进行了比较。根据框架中的支撑程度,获得了框架变形变化图、圆顶上部和中间环的子午肋内力和应力变化图。评估了支撑对肋环穹顶框架应力状态的影响。指出了不同耦合方案对穹顶框架受力状态影响的特点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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26
审稿时长
18 weeks
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