Comparative Seismic Analysis of G+20 RC Framed Structure Building for with and without Shear Walls

Journal of the Civil Engineering Forum Pub Date : 2024-07-22 DOI:10.22146/jcef.12854

Dr Rohit Maheshwari

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引用次数: 0

Abstract

The performance of High-rise Reinforced Concrete (R.C.) design buildings with the shear wall is targeted to provide stability, simplicity of maintenance, and durability of the framed structure. The impacts of lateral loads, axial forces, shear forces, base shear, maximum story drift, and tensile forces are common in high-rise structural systems. The present paper analyses G+20 story R.C. framed buildings for base shear, maximum story displacement and bending moment behaviour of structures with and without shear walls under seismic loading. The building is located in Dehradun, and the load has been considered as per I.S. code 1893:2016. Framed has been analysed using E-tabs to identify maximum base shear for the concern load conditions. The result shows that the frame designed with an appropriate shear wall absorbs more lateral forces, and minimum displacement values are induced and resist maximum moments throughout the height of the building when a structure is appropriately configured with a shear wall. The structure configured with the shear walls has high resistance to absorb earthquake forces compared to structures without shear walls.

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有剪力墙和无剪力墙 G+20 RC 框架结构建筑的抗震对比分析

采用剪力墙设计的高层钢筋混凝土（R.C.）建筑的性能目标是提供框架结构的稳定性、维护简便性和耐久性。在高层建筑结构系统中，横向荷载、轴向力、剪力、基底剪力、最大层间漂移和拉力的影响十分常见。本文分析了 G+20 层 R.C. 框架结构建筑在地震荷载下有剪力墙和无剪力墙结构的基础剪力、最大层间位移和弯矩行为。该建筑位于德拉敦，荷载按照 I.S. 规范 1893:2016 考虑。使用 E-tabs 对框架进行了分析，以确定相关荷载条件下的最大基底剪力。结果表明，当结构适当配置剪力墙时，设计有适当剪力墙的框架可吸收更多侧向力，产生最小位移值，并在整个建筑高度内抵抗最大力矩。与不带剪力墙的结构相比，带剪力墙的结构吸收地震力的能力更强。

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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来源期刊

Journal of the Civil Engineering Forum

自引率

0.00%

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审稿时长

15 weeks