Evaluation of the Cost Effectiveness of Three Different Structural Systems for Tall Buildings

Jeegir Ahmed, Jeger Ismail, Y. Al-Kamaki, Pargar M.Saleem Mahmood
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Abstract

New tall building developments of ever-increasing heights have been taking place around the world. The structural system of a high-rise building is designed to withstand vertical gravity loads as well as lateral forces induced by wind or seismic activity. The structural system consists only of the members designed to carry the loads, and all other members are referred to as non-structural. The structural system for a high-rise structure is determined by the selection and arrangement of the primary structural elements to withstand the different combinations of gravity and lateral loads as effectively as possible. A high-rise building needs to be stabilized for horizontal loads, and to achieve this; several different structural systems can be chosen. All the different systems have evolved from the traditional rigidly jointed structural frame. The fundamental design for all these structural systems has been to place as much of the load-carrying material as possible around the building’s external fringe to maximize its flexural rigidity. This study has concentrated on three of these structural systems: the rigid frame system, the dual system, and the shear wall system. These systems were chosen because of their common use in the region. This study aims to evaluate the three structural systems and figure out which system is the most cost-effective to utilize based on the number of floors (10, 20, and 30) as well as the minimum element cross-section and reinforcement ratio. This will be provided by static checking (dynamical is required) of the results obtained from ETABS. Following the completion of the work using ETABS 2016 and comparing the systems in terms of strength and economy, the findings were as follows: the most economical system for 10 floors is the rigid frame system, the shear wall system for 20 floors, and the shear wall system for 30 floors.
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评估高层建筑三种不同结构系统的成本效益
世界各地都在开发新的高层建筑,而且高度越来越高。高层建筑的结构系统旨在承受垂直重力荷载以及风力或地震引起的侧向力。结构系统仅由设计用于承受荷载的构件组成,所有其他构件均称为非结构构件。高层建筑的结构体系取决于主要结构构件的选择和布置,以尽可能有效地承受不同组合的重力和侧向荷载。高层建筑需要稳定地承受水平荷载,为此可以选择几种不同的结构体系。所有不同的结构体系都是从传统的刚性连接结构框架发展而来的。所有这些结构体系的基本设计都是将尽可能多的承重材料置于建筑物的外部边缘,以最大限度地提高其抗弯刚度。本研究主要集中于其中的三种结构系统:刚架系统、双系统和剪力墙系统。之所以选择这些系统,是因为它们在该地区被普遍使用。本研究旨在评估这三种结构体系,并根据楼层数(10 层、20 层和 30 层)以及最小构件截面和配筋率,找出哪种结构体系最具成本效益。这将通过对 ETABS 得出的结果进行静态检查(需要动态检查)来实现。在使用 ETABS 2016 完成工作并对各系统的强度和经济性进行比较后,得出以下结论:对于 10 层楼,最经济的系统是刚架系统,对于 20 层楼,最经济的系统是剪力墙系统,对于 30 层楼,最经济的系统是剪力墙系统。
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