Author(s)

Vidya Nitin Patil¹, Hemant Sharad Chore²

¹Department of Civil Engineering, AlSSMS’s College of Engineering, Pune, India.
²Department of Civil Engineering, Datta Meghe College of Engineering, Airoli, New Mumbai, India.

Fly ash is a pozzolanic waste from the burning of coal ash in thermal power plant which will be unchangeable in India and increasing environmental pollution. There is an urgent need of increasing bulk utilization of fly ash in geotechnical application. In this regard, a study was undertaken to investigate the bearing capacity of fly ash slopes (β) with the strip footing of width (B) 0.1 m located at different edge distances (D_e = 1B, 2B, 3B) from slope crest. These tests were conducted in the laboratory and the pressure-settlement behaviour of strip footing on unreinforced and reinforced fly ash slope having an angle of 45? was studied. The embedment ratio (Z/B = 0.30), and the depth of first layer of polyester geogrid reinforcement were investigated with different footing edge distances (D_e = 1B, 2B, 3B). From the experiment, pressure and settlements were measured and subsequently, the pressure settlement curves were drawn. It is observed from test results that the load carrying capacity is found to increase with an edge distance in both cases: unreinforced and reinforced slope. Also, a substantial increase is observed in the bearing capacity with the addition of geogrid reinforcement. It is observed that, the bearing capacity ratio (BCR) decreases with edge distance increase. These investigations demonstrate that both, the ultimate bearing capacity and settlement characteristics of the foundation, can be improved due to the inclusion of reinforcements within the fill.

Bearing Capacity, Embedment Ratio, Fly Ash, Geogrid

Patil, V. and Chore, H. (2016) Bearing Capacity of Embedded Strip Footing on Geogrid-Reinforced Fly Ash. Open Journal of Civil Engineering, 6, 179-187. doi: 10.4236/ojce.2016.62016.