Linear Analysis of Reinforced Concrete Frame Multi F_ Level Symmetric and Asymmetric Buildings With or Without Shear Wall

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Malti Tiwari; Prof. Saurabh Pare; Prof. Yogesh Kumar Bajpai; Prof. Anubhav Rai

Linear Analysis of Reinforced Concrete Frame Multi F_ Level Symmetric and Asymmetric Buildings With or Without Shear Wall

Authors: Malti Tiwari, Prof. Saurabh Pare, Prof. Yogesh Kumar Bajpai, Prof. Anubhav Rai

Unique Paper ID: 148327
Volume: 6
Issue: 1
PageNo: 298-304

Keywords: Symmetric Asymmetric Building Loads And Load Combinations seismic analysis by ESM(Equivalent static method) wind analysis Shear Wall Linear Analysis Joint Drift F_Level Drift Joint F_Level Displacement Maximum E-Tabs 2016

Abstract:
In this thesis a comparison of linear analysis of Reinforced Concrete Frame multi F_Level Symmetric and Asymmetric buildings with or without shear wall in seismic analysis and wind analysis is carried out. In this thesis comparison of seismic analysis linear static (equivalent static method) and wind analysis is done by using loads and load combinations. In this analysis the selection of building is a Reinforced Concrete Frame building, which is a multi F_Level building. In Indian region country divided four zones (II, III, IV and V) depending on seismic risk. In this thesis taking zone III, and SMRF (special moment resisting frame) building is using in this analysis. Moment resisting frame should resist both gravity and lateral loads and widely used for seismic resisting systems. Taking Rectangular, c-shape and L-shape of building with shear wall and without shear wall and comparing for F_Level drift, joint F_Level displacement, max and avg. F_Level drift, joint displacement and etc. by using 18 loads and load combinations for static analysis and wind analysis. For seismic analysis IS 1893(PART I):2002 and for wind analysis IS 875(PART I,II,III):1987 is using and the whole analysis is done with ETABS 2016 software programming.

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Copyright © 2025 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{148327,
        author = {Malti Tiwari and Prof. Saurabh Pare and Prof. Yogesh Kumar Bajpai and Prof. Anubhav Rai},
        title = {Linear Analysis of Reinforced Concrete Frame Multi F_ Level Symmetric and Asymmetric Buildings With or Without Shear Wall},
        journal = {International Journal of Innovative Research in Technology},
        year = {},
        volume = {6},
        number = {1},
        pages = {298-304},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=148327},
        abstract = {In this thesis a comparison of linear analysis of Reinforced Concrete Frame multi F_Level Symmetric and Asymmetric buildings with or without shear wall in seismic analysis and wind analysis is carried out. In this thesis comparison of seismic analysis linear static (equivalent static method) and wind analysis is done by using loads and load combinations. In this analysis the selection of building is a Reinforced Concrete Frame building, which is a multi F_Level building. In Indian region country divided four zones (II, III, IV and V) depending on seismic risk. In this thesis taking zone III, and SMRF (special moment resisting frame) building is using in this analysis. Moment resisting frame should resist both gravity and lateral loads and widely used for seismic resisting systems. Taking Rectangular, c-shape and L-shape of building with shear wall and without shear wall and comparing for F_Level drift, joint F_Level displacement, max and avg. F_Level drift, joint displacement and etc. by using 18 loads and load combinations for static analysis and wind analysis. For seismic analysis IS 1893(PART I):2002 and for wind analysis IS 875(PART I,II,III):1987 is using and the whole analysis is done with ETABS 2016 software programming.},
        keywords = {Symmetric, Asymmetric Building, Loads And Load Combinations, seismic analysis by ESM(Equivalent static method), wind analysis, Shear Wall, Linear Analysis, Joint Drift, F_Level Drift,  Joint F_Level Displacement Maximum, E-Tabs 2016},
        month = {},
        }

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Cite This Article

ISSN: 2349-6002
Volume: 6
Issue: 1
PageNo: 298-304

Linear Analysis of Reinforced Concrete Frame Multi F_ Level Symmetric and Asymmetric Buildings With or Without Shear Wall

Available:https://ijirt.org/article?manuscript=148327

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