Behavior of RC Frame Considering Soil Structure Interaction Under Seismic Load

Open Access

Year : 2023 | Volume : | : | Page : –
By

Mohammed Rizwan Quadri,

L. G. Kalurkar,

  1. PG Student, Department of Civil Engineering, Jawaharlal Nehru Engineering College, Maharashtra, India
  2. Associate Professor, Department of Civil Engineering, Jawaharlal Nehru Engineering College, Maharashtra, India

Abstract

Present study focusses on the behavior of reinforced concrete frames considering soil structure interaction by performing linear static and dynamic analysis. A reinforced concrete frame having G+10 storey was considered. The investigation on the behavior of RC frame is carried out by using dynamic analysis i.e., Response Spectrum method. The modeling of RC frame is carried out by using finite element-based computer program i.e., STAAD.Pro. The investigation is carryout by considering different soil profile beneath the structure such as Clay, Silt, Sand, Basalt Rock, Mudstone and Gneiss rock. Further investigation is carried out by considering above soil profile in loose and dense state. By considering all these parameter total 30 models for Static and Dynamic Conditions were created, all models were analyzed for the Seismic zone II. The Response of each RC frame with respect to others will be checked for Axial force, Shear Force, twisting moment, Bending Moment, Lateral displacement, and Base Shear. The behaviour of each RC frame with respect to others is describes with the help of graphs.

Keywords: RC frame, soil structure interaction, response spectrum method, soil profiles, density, modulus of elasticity, modulus of rigidity, Poisson’s ratio.

How to cite this article:
Mohammed Rizwan Quadri, L. G. Kalurkar. Behavior of RC Frame Considering Soil Structure Interaction Under Seismic Load. International Journal of Structural Engineering and Analysis. 2023; ():-.
How to cite this URL:
Mohammed Rizwan Quadri, L. G. Kalurkar. Behavior of RC Frame Considering Soil Structure Interaction Under Seismic Load. International Journal of Structural Engineering and Analysis. 2023; ():-. Available from: https://journals.stmjournals.com/ijsea/article=2023/view=90346


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Open Access Article
Volume
Received 02/08/2021
Accepted 19/10/2021
Published 19/01/2023