PLANNING OF EXPEREMENTAL RESEARCH СYLINDRICAL LOAD-BEARING SUPPORT OF BUILDINGS

O. Synkovska, A. Ihnatenko
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Abstract

A new construction of cylindrical load-bearings support of buildings is offered, that has an alternative reinforced concrete and with using of several different ways of indirect use. Shell is introduced for the view of the new construction sieved sheet, that is created from non-exit technology using imbibitions and extrusion of the steel sheet itself.. For gaining the maximum amount of advantages and disadvantages from the introduced us reinforced concrete elements with mesh shell. The most efficient is method is a comprehensive research of introduced construction, as well as an already known researches of reinforced concrete with mesh shell. That's why, when we are calculating labor, material intensity and cost of these experimental researches. Keep in mind that this is promtly and relevant researches. In this work while planning the experiment some things were taken to consideration: best way for the construction to give the weight to reinforced concrete part and how to define the level of influence of factors like this: cyclicity, eccentricity, type of shell, thickness and diameter of shell, durability of concrete and  deformation of reinforced concrete constructions. So, to get the most reliable information from these researches with minimal waste, we need to optimize parameter of load-bearing capacity and deformation and parameter of restriction-destruction. A calculation was made for optimizing the experiment about minimal amount of researches and conditions where they are done, and that is enough to salve the problem precisely.
规划试验研究Сylindrical建筑承重支撑
提供了一种新的圆柱形承重支撑建筑,它具有替代钢筋混凝土和使用几种不同的间接使用方式。壳牌被介绍为新的建筑筛板的观点,这是由使用钢板本身的吸塑和挤压的非出口技术创建的。为了最大限度地汲取我国钢筋混凝土网壳构件的优点和缺点。最有效的方法是对引进施工的综合研究,以及已有的网壳钢筋混凝土的研究。这就是为什么我们在计算这些实验研究的人工、材料强度和成本时。请记住,这是及时和相关的研究。在本工作中,在规划实验时,考虑了一些事情:施工中给予钢筋混凝土部分重量的最佳方式,以及如何确定这些因素的影响程度:循环度,偏心,壳的类型,壳的厚度和直径,混凝土的耐久性和钢筋混凝土结构的变形。因此,为了以最小的浪费从这些研究中获得最可靠的信息,需要对承载能力和变形参数以及约束破坏参数进行优化。对实验进行了最小研究量和条件的优化计算,足以精确解决这一问题。
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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