International Journal Of Engineering And Management Research
  • Year: 2022
  • Volume: 12
  • Issue: 2

Stabilization of black cotton soil using lime, coir fiber & rice husk

  • Author:
  • R. Jayakrishnan1,*, Anumol Sukumaran2, M. Aswini3, Alen Saji4, Mohammed Faiz5, Sreeshma K. Sivadas6
  • Total Page Count: 4
  • Page Number: 93 to 96

1Assistant Professor, Department of Civil Engineering, APJ Abdul Kalam Technological University/Rajadhani Institute of Science and Technology, Palakkad, Kerala, India

2Assistant Professor, Department of Civil Engineering, APJ Abdul Kalam Technological University/Rajadhani Institute of Science and Technology, Palakkad, Kerala, India

3B.Tech Final Year Student, Department of Civil Engineering, APJ Abdul Kalam Technological University/Rajadhani Institute of Science and Technology, Palakkad, Kerala, India

4B.Tech Final Year Student, Department of Civil Engineering, APJ Abdul Kalam Technological University/Rajadhani Institute of Science and Technology, Palakkad, Kerala, India

5B.Tech Final Year Student, Department of Civil Engineering, APJ Abdul Kalam Technological University/Rajadhani Institute of Science and Technology, Palakkad, Kerala, India

6B.Tech Final Year Student, Department of Civil Engineering, APJ Abdul Kalam Technological University/Rajadhani Institute of Science and Technology, Palakkad, Kerala, India

*Corresponding Author: jayan1615@gmail.com

Online published on 22 June, 2022.

Abstract

Because of their low bearing capacity, the expansive black cotton soils’ high swelling and shrinking characteristics have posed numerous challenges to construction projects. When subjected to varying levels of moisture, black cotton soil expands and contracts rapidly. As a result, stabilising the soil is necessary to address these issues. Rice Husk Ash (RHA), Cori Fiber, and Lime are being tested in this study to see if they can act as a stabilising material in the expansive black cotton soil. The impact of RHA, CF, and LIME on the expansive soil's index and engineering properties was studied in the lab. Coir fibre concentration is 1.5 percent, lime is 5 percent by weight of dry soil, and RHA is mixed in at a ratio of 20 percent. The virgin soil sample is first tested for specific gravity and grain size distribution. With and without these admixtures soil's index properties like its plastic limit, liquid limit and shrinkage limit and its strength properties like its California Bearing Ratio, Unconfined Compressive Strength tests are discovered. According to the test results, a combination of 5 percent lime and 1.5 percent coir fibre yielded the strongest soil and best index properties.

Keywords

Rice Husk, Ash, RHA, Coir Fiber, Lime