Behavioral study of piled raft foundation on cohesionless soil for eccentricity
- April 25, 2022
- Posted by: RSIS
- Categories: Civil Engineering, IJRSI
International Journal of Research and Scientific Innovation (IJRSI) | Volume IX, Issue III, March 2022 | ISSN 2321–2705
Behavioral study of piled raft foundation on cohesionless soil for eccentricity
Dr. K.V.S.B Raju1, Aruna T2, Swathi Gowda3
1Associate Professor, Department of Civil Engineering, UVCE-Bengaluru
2Research scholar, Department of Civil Engineering, UVCE -Bengaloru
3ME student, Department of Civil Engineering, UVCE-Bengaluru
Abstract: The performance of piled raft foundation on sand is analyzed with reference to its bearing capacity and settlement. This paper presents an experimental study of the effectiveness of using piles on the behavior of an eccentrically loaded raft. The parameters that varied are the piles arrangements, piles length and load eccentricity. The improvement in the bearing capacity is represented by a non dimensional parameter called the load improvement ratio (LIR). The results of the tests show that the inclusion of piles at an eccentricity reduces the bearing capacity and also it decreases significantly as the eccentricity also increases leads to a reduction in raft settlement and tilts. However, the efficiency of the piled raft system depends on the load eccentricity ratio and pile arrangement. Based on the test results, the influence of different parameters is presented and discussed. However, the efficiency of the piled raft system depends on the load eccentricity ratio and pile arrangement. Raft foundations are often subjected to eccentric inclined loading because of the influence of lateral loads cause as a result of high wind and seismic actions and that may result in tilt of the structures particularly in case of high rise buildings. Using the settlement reducing piles beneath the raft in such cases may increase the soundness of the structure and may reduce the tilt of the raft. However, the piled raft subjected to eccentric and inclined loads has not been fully studied. Most of the research work was done on parametric numerical study for uniformly distributed load or concentrated column loads on piled raft. So that the study is necessary to gain more understanding of behavior of piled raft foundation for eccentric inclined load over cohesive soil/layered cohesive soil mass that creates overturning of the structure, which is commonly found in practice.
Keywords: Piled raft foundation, cohesion less soil
I. INTRODUCTION
Piled rafts have been used successfully in a wide variety of geotechnical applications. However, behavior of piled raft placed in sand is not extensively studied. [1] Sven kabbenhoft et al., (2014): The bearing capacity of a strip foundation subjected to an inclined, eccentric load on cohesionless soil with different surcharges and friction angles of 25, 30, and 35 degrees is determined using lower-bound calculations based on the FEM. Following the Mohr-Coulomb failure criterion, the soil is considered to be fully pliable.