Design Demand of RC Building as per Soil Type

Journal of Advanced College of Engineering and Management Pub Date : 2023-06-23 DOI:10.3126/jacem.v8i1.55919

Suspana Rimal, Bibek Pokhrel, Sunil Shrestha, B. Pradhan

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Abstract

The RC-framed building is one of the most common construction techniques for seismic-resistant structures due to its ductile nature. But the seismic performance of the RC structure is affected by various factors among which site soil condition is vital. The sub-soil condition affects the time period of the structure which eventually impacts the earthquake force in the structure, thus making variations in seismic loadings. Although several studies have been performed and design elastic spectra have been defined as per soil types in the design codes, there are no studies quantifying the effect of design demand in the buildings due to variation of soil type in the context of Nepal and NBC 105:2020. Therefore, this study aims to present the variation in design demand for moderately high-rise RC buildings in different soil types. A representative sample building has been taken and analyzed in the Finite Element platform SAP 2000. Numerical analysis is performed using linear static and response spectrum methods. Based on the study, variation in the base shear, story displacement, inter-story drift, and section size to meet the limit state of strength are compared for soil types A, B, C, and D.

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按土型划分的钢筋混凝土建筑设计要求

rc框架建筑由于其延展性，是最常见的抗震结构施工技术之一。但钢筋混凝土结构的抗震性能受多种因素的影响，其中场地土壤条件是至关重要的。底土条件影响结构的时间周期，最终影响结构的地震力，从而引起地震荷载的变化。尽管已经进行了几项研究，并根据设计规范中的土壤类型定义了设计弹性谱，但在尼泊尔和NBC 105:2020的背景下，由于土壤类型的变化，没有研究量化建筑中设计需求的影响。因此，本研究旨在呈现不同土壤类型中高层钢筋混凝土建筑设计需求的变化。在SAP 2000有限元平台上选取了一个具有代表性的样楼进行了分析。数值分析采用线性静态和响应谱方法进行。在此基础上，比较了A、B、C、D四种土体类型的基底剪力、层间位移、层间位移、截面尺寸满足强度极限状态的变化情况。

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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Journal of Advanced College of Engineering and Management

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