Impacts of temperature on the stress-strain state of aerial braces of arch systems

I. Makhov
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引用次数: 1

Abstract

Introduction. In landmark buildings, floorings and roofs are performed as vault and arch systems. For accommodation of horizontal forces in the arches, aerial braces are used. Aerial braces of an arch system are a tie made of wrought iron with a cross-sectional area from 10 to 50 cm2. In the scientific and technical literature, information on aerial braces is extremely poor. Materials and methods. To assess the impacts of temperature deformations on the bearing strength of the aerial braces, a computational analysis was performed. On the basis of data on standard structural schemes of the landmark buildings, the characteristic length of aerial braces was taken into account. Averaged climatic data calculated on the basis of weather observations for the period 1988–2017 for 13 climatic regions of Russia were analysed. Since the data on the temperature of the closure of the distance piece system are irrevocably missing, two variants of the outdoor temperature were considered for the installation of the aerial braces: zero and the maximum summer temperature. Results. Calculations were carried out and the strain arising in the aerial braces at the corresponding temperature elongation values obtained under recognition of the different temperatures of arch system closure was determined. Totally 78 temperature graphs were obtained and analysed for different climate areas, with different closure temperatures of arched systems. Conclusions. It was found out that, for the assessment of the impacts of temperature deformation on the bearing capacity of aerial braces, the actual temperature of the arch system closure is decisive. The safety factor of the bearing strength of aerial braces of arch systems for most climatic zones exceeds 50 % and can reach 92 %. At the same time, for two areas with significant negative temperatures in the winter period, the utilization ratio of aerial braces can reach 0.6–0.63. The maximum temperature elongation of aerial braces with a length of 6 m does not exceed 3 mm in case of mounting at the maximum summer temperature and 2 mm at the zero point.
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温度对拱系架空支撑应力-应变状态的影响
介绍。在地标性建筑中,地板和屋顶被用作拱顶和拱形系统。为了调节拱门中的水平力,使用了空中支撑。拱形系统的空中支撑是由熟铁制成的领带,其横截面积为10至50平方厘米。在科学和技术文献中,关于架空支撑的信息极其贫乏。材料和方法。为了评估温度变形对架空支撑承载强度的影响,进行了计算分析。在参考地标建筑标准结构方案的基础上,考虑了空中支撑的特征长度。分析了俄罗斯13个气候区1988-2017年的平均气候数据。由于距离片系统的关闭温度数据不可避免地缺失,因此考虑了安装架空支架时室外温度的两种变化:零温度和夏季最高温度。进行了计算,确定了在识别不同拱系闭合温度下,相应温度下桁架产生的应变伸长值。共获得78张不同气候区拱形系统闭合温度的温度图,并对其进行了分析。研究发现,在评价温度变形对架空支撑承载力的影响时,拱系闭合的实际温度是决定性的。在大多数气候带,拱系架空支撑承载强度的安全系数均在50%以上,可达92%。同时,在冬季负气温显著的两个地区,架空支撑的利用率可达0.6-0.63。长度为6m的架空支撑在夏季最高温度下安装时,最大温度伸长率不超过3mm,最高点不超过2mm。
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