Literature Review on Seismic Analysis of Building Resting on Sloping Ground

Authors

  • Kavita K. Pathak Department of Civil Engineering, Shreeyash College of Engineering and Technology, Aurangabad, Maharashtra, India
  • Vijay Harsing Nimbhore Department of Civil Engineering, Shreeyash College of Engineering & Technology, Aurangabad, Maharashtra, India
  • U.S. Salunkhe Department of Civil Engineering, Shreeyash College of Engineering and Technology, Aurangabad, Maharashtra, India
  • U.B. Kalwane Department of Civil Engineering, Shreeyash College of Engineering and Technology, Aurangabad, Maharashtra, India

DOI:

https://doi.org/10.37628/jsea.v4i2.376

Abstract

Over the past 20 years,1.35 million people have been killed by natural hazards, more than half died in earthquakes and the remaining due to weather and climate-related hazards. The poorest nations paid the highest price in terms of the numbers killed per disaster and per 1,300,000 populations. So new advance, ideal and economical techniques should be used for designing and constructing the structures. The study helps us to understand the significant difference between seismic behaviors of building on slopes and building on flat surface. In summary, the natural period of building depends on the distribution of mass and stiffness along the building. As the slope angle increases, it was observed that the short column resists almost all the storey shear since other columns are flexible and tend to oscillate. It had been observed that the footing columns of shorter height attract more forces.

References

Birajdar BG, Nalawade SS. Seismic analysis of buildings resting on sloping ground. Canada: 13th World Conference on Earthquake Engineering Vancouver. B.C., August 1-6, 2004. pp. 1472.

Singh Y, Phani Gade DH Lang E Erduran. Seismic Behavior of Buildings Located on Slopes - An Analytical Study and Some Observations from Sikkim Earthquake of September 18, 2011. Lisboa: 15 WCEE; 2012.

Ajay Kumar Sreerama, Pradeep Kumar Ramancharla. Earthquake behavior of reinforced concrete framed buildings on hill Slopes. International Symposium on New Technologies for Urban Safety of Mega Cities in Asia (USMCA 2013). October 2013; Report No: IIIT/TR/2013/-1.

Hassaballa AE, Ismaeil MA, Alzead AN, Adam FM. Pushover Analysis of Existing 4 Storey RC Flat Slab Building. International Journal of Sciences: Basic and Applied Research (IJSBAR). 2014; 16 (2): 242–257p.

Sujit Kumar, Vivek Garg, Abhay Sharma. Effect of sloping ground on structural performance of rcc building under seismic load. International Journal of Science, Engineering and Technology. 2014; 2 (6): 1310–1321p.

Salman I Khan and Ashok R Mundhada. Comparative study of seismic performance of multistoried Rcc buildings with flat slab and grid slab: a review. International. Journal of structural and Civil Engineering research. 2015 February; 4 (1): 75–80p.

Manish D Meshram, Ashok R Mundhada. Earthquake analysis of rcc buildings on hilly terrain: a review. International Journal of Innovative Research in Science, Engineering and Technology. Dec 2015; 1: 255–261p.

Manjunath CS, Siddu Karthik C S. Seismic performance of r c buildings on sloping grounds with different types of bracing systems. International Journal of Research in Engineering and Technology. February 2016; 5(2): 82–90p.

Anghan Jaimis, Mitan Kathrotiya, Neel Vagadia, Sandip Mulani. Comparative study of flat slab and conventional slab using software aid. Global Research and Development Journal for Engineering Recent Advances in Civil Engineering for Global Sustainability. March 2016.

Likhith aradhya Y R, Praveen JV, Sanjith J, Ranjith A. Seismic analysis of multi-storey building resting on flat ground and sloping ground. International Journal of Innovative Research in Science, Engineering and Technology. 2016; 5(6): 9786–9794p.

Likhith aradhya YR, Praveen JV, Sanjith J, Ranjith A. Seismic analysis of multi-storey building resting on flat ground and sloping ground. International Journal of Innovative Research in Science, Engineering and Technology. June 2016; 5(6): (An ISO 3297: 2007 Certified Organization) 9786-9794p

Sripriya Arjun, Arathi S. A study on dynamic characteristics of rc buildings on hill slopes. International Journal of Science and Research (IJSR). July 2016; 5(7): 1116-1119p.

Arif Basha B, Dada Peer ABS. Seismic analysis of buildings resting on sloping ground and considering bracing system. International Journal of Science, Engineering and Technology Research (IJSETR). December 2016; 5 (12): 3486–3492p.

Nikhila KSL, Pandurangarao B. Static linear and nonlinear analysis of r.c building on sloping ground with varying hill slopes. American Journal of Engineering Research (AJER). November 2014; 3 (11): 70–76p.

Misal DJ, Bagade MA. study of seismic behaviour of multi-storied r.c.c. buildings resting on sloping ground and considering bracing system. International Journal of Engineering Research. 5 (3): 690–697p.

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Published

2018-07-17

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