Nonlinear Static Analysis of Core Wall RCC Framed Buildings

Proceedings of the 12th Structural Engineering Convention, SEC 2022: Themes 1-2 Pub Date : 2022-12-19 DOI:10.38208/acp.v1.669

A. Gond, S. Madan

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Abstract

RCC framed buildings mainly consists of shear walls and columns for resisting lateral force due to earthquakes. In most of the framed buildings shear walls are provided in the outer frames. In addition to shear walls provided in the outer frames, RCC lift -well (core wall) is also provided in the inner core of the buildings to accommodate lift. Core wall also acts as shear wall contributing to the lateral resistance to the buildings. In the present study, nonlinear static analysis is performed to study the behaviour of high rise RCC buildings, the buildings have a centralised lift core wall with a door opening and shear walls in outer frames. The flange of core wall is joined together at regular interval by floor and slabs and connecting beams to provide proper connection in between flange. This Residential G+14 RCC framed building is lying in seismic zone 4 and analysed as per guidelines of is 1893 (part 1) 2016 and ETABS 17.0.1. Responses namely lateral loads, story drift, base shear, story displacement and the formation of plastic hinges compared for two types of buildings, namely with core wall and without core wall to understand the effect of core wall against the lateral loads.

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核心墙碾压混凝土框架建筑的非线性静力分析

碾压混凝土框架建筑主要由剪力墙和抗地震侧向力柱组成。在大多数框架建筑中，剪力墙设置在外部框架中。除了在外部框架中提供剪力墙外，RCC提升井(核心墙)也在建筑物的内部核心中提供，以容纳提升。核心墙也起到剪力墙的作用，有助于建筑物的横向阻力。在目前的研究中，进行了非线性静力分析来研究高层碾压混凝土建筑的行为，这些建筑有一个带门开口的集中提升核心墙和外框架的剪力墙。核心墙翼缘由楼板和连接梁按规定的间隔连接在一起，以保证翼缘之间的适当连接。该住宅G+14 RCC框架建筑位于地震带4，并根据其1893 (part 1) 2016和ETABS 17.0.1的指导方针进行分析。对有核心墙和无核心墙两种类型的建筑进行横向荷载、层漂移、基底剪力、层位移和塑性铰形成的响应比较，以了解核心墙对横向荷载的影响。

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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Proceedings of the 12th Structural Engineering Convention, SEC 2022: Themes 1-2

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