Analysis of a Building Frame Considering Flood Resistance Technology Using Analysis Tool
Keywords:
Flood resistance building, Pile foundation, Ductile detailing, IS 1893: 2016 (Part-1), IS 13920: 1993, STAAD.ProAbstract
The design of flood-resistant structures is examined in this thesis, with a particular emphasis on the use of ductile detailing to improve seismic resistance and structural performance. Two structural instances of three-story structures in flood-prone areas are examined in the study:
Case 1: Hard Soil Conditions in Seismic Zone 4 Case 2: Hard Soil Conditions in Seismic Zone 3. In all scenarios, the height of the base floor is 4 meters, and the heights of the subsequent storeys are 3 meters from floor to ceiling.
In both situations, seismic analysis is done to assess how the structure would react to an earthquake. Important variables include bending moment, shear force, axial force, base shear, and joint displacement are the main focus of the analysis. To evaluate the effect of ductile detailing on the seismic performance of the buildings, the outcomes are compared.
Downloads
References
Shinde Sanket and Vaibhav Shelar, [Behavior of Flood Resistant Building and Ductile Detailing of G +7 RC Building Using IS 13920-2016], World Journal of Advanced Engineering Technology and Sciences, 2023
S. Munter, E. Lume, [Critical Reinforcement Design and Detailing for Resilience and Preservation of Concrete Structures], Australasian Structural engineering conference
Omar Nofal, Nathanael Rosenheim, Sabarethinam Kameshwar, Jayant Patil, Xiangnan Zhou, John W. van de Lindt, Leonardo Duenas-Osorio, Eun Jeong Cha, Amin Endrami, Elaina Sutley, Harvey Cutler, Tao Lu, Chen Wang, Hwayoung Jeon, [Community-level post-hazard functionality methodology for buildings exposed to floods], WILEY, 2023
Cao Van Hoa, [Rational Pile Design using Computer-based Program Coding in Matlab: A Case Study], Engineering, Technology & Applied Science Research, Vol. 14, No. 2, 2024
D. Rinchumphu, N. Suriyanon, N. Phichetkunbodee, S. Munlikawong, C. Wanitchayapaisit, S. Sitthikankun, [Economics and cost effectiveness of a rain garden for flood-resistant urban design], Global Journal of Environmental Science and Management, 2024
Alexandros Nikellis, Kallol Sett, and Andrew S. Whittaker, [Multihazard Design and Cost-Benefit Analysis of Buildings with Special Moment–Resisting Steel Frames], ASCE, 2019
Mohamed Mostafa, Lucas Hogan1, Max T. Stephens, Michael J. Olsen, and Kenneth J. Elwood, [A detailed damage investigation of an instrumented ductile reinforced concrete building following the M-7.8 Kaikoura earthquake], Earthquake Spectra, 2024
Hope Ameh, Lidia Badarnah and Jessica Lamond, [Amphibious Architecture: A Biomimetic Design Approach to Flood Resilience], MDPI, 2024
HELDER JOSE DE OLIVEIRA MARANHAO, [SEISMIC DESIGN OF REINFORCED CONCRETE BUILDINGS ACCORDING TO THE MODERN CODES], DOCTORAL PROGRAM IN CIVIL ENGINEERING, 2024
Nurul Hidayah, Rusdiansyah, [EFFECT OF FOUNDATION DEPTH AND DIMENSIONS ON PILE FOUNDATION DESIGN HOLD LATERAL FORCE (Case Study: Foundation of the Customs Building in Banjarmasin)], CERUCUK, Volume 8 No. 7 2024
Downloads
Published
Issue
Section
License
Copyright (c) 2025 Varsha Sahu, Anita Chaturvedi, Pradeep Nirmal (Author)
This work is licensed under a Creative Commons Attribution 4.0 International License.
https://creativecommons.org/licenses/by/4.0
