Analysis about Planning and Modification of the Upper and Lower Structures of the 38 Floor Apartment SkyHouse Project with Equivalent Static Analysis

Q4 Physics and Astronomy Neutron News Pub Date : 2022-01-31 DOI:10.29138/neutron.v21i02.139

Agus Fernando, Syahwandi, Resi Aseanto, A. Sumarno

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Abstract

Abstract The modeled building structure is a regular building, with the number of levels being varied. The structural model is divided into 38-level portals. This research uses the help of the SAP2000 v21 program to facilitate the earthquake analysis process. The results of the study that will be compared are displacements between levels and base shear that occur due to earthquake forces. The results of the analysis have shown that static analysis produces greater results for the structural models compared to dynamic analysis. The difference in displacement between levels produced by the two methods in the three structural models is still included in the displacement limits between levels of permission required in SNI 1726-2012, so that the three models can still be analyzed by static analysis and dynamic analysis. Because the results of displacement and base shear in static analysis are greater than dynamic analysis, static analysis is safer if used for earthquake force loading in general structural calculations. Although in earthquake analysis, dynamic analysis is a more accurate analysis because the analysis process is closer to the actual situation.

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利用等效静力分析分析38层公寓空中住宅项目的上下结构规划与修改

模型的建筑结构是一个规则的建筑，其层数是变化的。结构模型分为38层入口。本研究使用SAP2000 v21程序帮助进行地震分析过程。将比较的研究结果是由于地震力而发生的水平和基础剪切之间的位移。分析结果表明，与动力分析相比，静力分析对结构模型产生了更好的结果。三种结构模型中两种方法产生的层间位移差仍然包含在SNI 1726-2012要求的权限层间位移限值中，因此三种模型仍然可以通过静态分析和动态分析进行分析。由于静力分析中位移和基底剪力的计算结果大于动力分析，因此在一般结构计算中，静力分析用于地震力加载更为安全。虽然在地震分析中，动力分析是一种更准确的分析方法，因为分析过程更接近实际情况。

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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