Home Articles List Article Information
JES. Journal of Engineering Sciences
Journal Archive
Volume Volume 53 (2025)
Volume Volume 52 (2024)
Volume Volume 51 (2023)
Volume Volume 50 (2022)
Volume Volume 49 (2021)
Volume Volume 48 (2020)
Volume Volume 47 (2019)
Volume Volume 46 (2018)
Volume Volume 45 (2017)
Volume Volume 44 (2016)
Volume Volume 43 (2015)
Volume Volume 42 (2014)
Volume Volume 41 (2013)
Volume Volume 40 (2012)
Volume Volume 39 (2011)
Volume Volume 38 (2010)
Volume Volume 37 (2009)
Volume Volume 36 (2008)
Volume Volume 35 (2007)
Volume Volume 34 (2006)
Hashad, A., Helal, E. (2022). Guidelines to estimate Earthquake Loads on Buildings in Slum Areas. JES. Journal of Engineering Sciences, 50(2), 75-88. doi: 10.21608/jesaun.2022.107982.1092
Ahmed Hashad; Emad Helal. "Guidelines to estimate Earthquake Loads on Buildings in Slum Areas". JES. Journal of Engineering Sciences, 50, 2, 2022, 75-88. doi: 10.21608/jesaun.2022.107982.1092
Hashad, A., Helal, E. (2022). 'Guidelines to estimate Earthquake Loads on Buildings in Slum Areas', JES. Journal of Engineering Sciences, 50(2), pp. 75-88. doi: 10.21608/jesaun.2022.107982.1092
Hashad, A., Helal, E. Guidelines to estimate Earthquake Loads on Buildings in Slum Areas. JES. Journal of Engineering Sciences, 2022; 50(2): 75-88. doi: 10.21608/jesaun.2022.107982.1092

Guidelines to estimate Earthquake Loads on Buildings in Slum Areas

Article 3, Volume 50, Issue 2, March and April 2022, Page 75-88  XML PDF (920.35 K)
Document Type: Research Paper
DOI: 10.21608/jesaun.2022.107982.1092
View on SCiNiTO View on SCiNiTO
Authors
Ahmed Hashad1; Emad Helal email 2
1Professor, Construction Research Institute, National Water Research Center, Egypt
2Assistant Professor, October University for Modern Sciences and Arts (MSA), Egypt.
Abstract
Slums and non-engineering buildings are scattered in Egyptian cities. Here comes the challenge facing the state, including the engineering bodies, to determine the danger level to the residents’ lives, and to develop solutions and priorities for facing risks including earthquakes. The large size of slums necessitates the development of a simplified way for classifying structures in terms of their seismic resistance. This research proposes a simplified method to estimate the earthquake loads to be used for estimating the ability of such buildings to withstand the main and seismic loads, allowing the determination of the initial degree of danger on its condition. The proposed guideline ignores the effect of participation of all columns in resisting earthquake loads, especially in the absence of lateral stiffness members, which is the general condition of slums and focuses on the external columns only that are the most exposed to the seismic load. Also, this method considers only the resulting seismic vertical reactions. The validity of the proposed method was tested experimentally and analytically, while its accuracy was verified through a field study by comparing the results of its application on two buildings in Sharkia, Egypt. Numerical models for these buildings were built to determine their resistance under seismic loads. The study concluded how to predict the risks affecting such buildings using a simple process. This could be used to establish controls to re-planning the buildings of existing slum cities to ensure the safety or at least reduce the risk of collapses against moderate earthquakes.
Keywords
Dynamic analysis; Building assessment; Seismic design; Structural evaluation
Main Subjects
Civil Engineering: structural, Geotechnical, reinforced concrete and steel structures, Surveying, Road and traffic engineering, water resources, Irrigation structures, Environmental and sanitary engineering, Hydraulic, Railway, construction Management.
References
  1.  Abdo, A.M., Hamada, R.M., "آليات تطوير المناطق العشوائية طبقا لمبادئ التنمية المستدامة" Journal of Al Azar University Engineering Sector, October 2017, 1615-11626.
  2. Badawy, A., Gaber, H., Ibrahim, H. “Earthquake Risk Assessment of Alexandria, Egypt”. Journal of Seismology, 2016; DOI 10.1007/s10950-014-9456-x, January 2015.
  3. Charlotte    Malterre-Barthes, “Housing Cairo from Small-Scale Informal Housing Construction to Semi-Professional Speculative Urban Schemes” Low/No Cost Housing Conference, Zurich, Swizerland, June 2016.
  4. Chopra, K., Anil, “Dynamics of Structures”, Prentice Hall, Englewood Cliffs, New Jersey, 1995.
  5. El-Betar, S.A., 2016. “Seismic Vulnerability Evaluation of Existing R.C. Buildings”, HBRC Journal, 2016. DOI: 10.1016/j.hbrcj.2016.09.002.
  6. Fahmy, Y.G.M., Abd-Elfattah, H.H. “Assessment of Existing Non-Engineered Residential Building in Rural Area Based on Egyptian Code of Practice” Al-Azhar University Civil Engineering Research Magazine (CERM) Vol. (40) No. (1) January 2018.
  7. Hashad, A., "Methodology to Estimate Bending Stresses Due to Vibration of Simple Beams" The NWRC international conference "Research and technology development for sustainable water resources management" Cairo, December 2016.
  8. “SAP2000 Nonlinear Ver. 20”, Computers and Structures, Inc., Berkeley, California, USA, 2002.
  9. Sobaih, M.E., Nazif, M.A. “A Proposed Methodology for Seismic Risk Evaluation of Existing Reinforced School Buildings” HBRC Journal, April 2012, https://doi.org/10.1016/j.hbrcj.2012.10.006.
  10. The Egyptian Code for Loads and Forces in Construction and Building Works, -201”, Housing and Building Research Center, Giza, Egypt, 2012.
  11. “The Egyptian Code for Design and Construction of Concrete Structures-203”, Housing and Building Research Center, Giza, Egypt, 2017.
Statistics
Article View: 344
PDF Download: 897