The impact of long-term curing period on the mechanical features of lime-geogrid treated soils

Authors

Soheil Jahandari, Western Sydney University
S. Faridfazel Mojtahedi, Sharif University of Technology
Farzad Zivari, Southern Cross University
Mohammadmostafa Jafari, Technical and Vocational University
Mohammad Reza Mahmoudi, Islamic Azad University, Central Tehran Branch
Ali Shokrgozar, Idaho State University
Saman Kharazmi, Kerman Institute of Higher Education
Bahador Vosough Hosseini, University of Wollongong
Saeid Rezvani, University of Victoria
Hossein Jalalifar, Shahid Bahonar University of Kerman

Publication Name

Geomechanics and Geoengineering

Abstract

One problem that has always been a challenge for geotechnical engineers is construction on problematic and soft soils. Traditional methods of lime and cement stabilisation can be used to treat soils with these properties. The main drawback of lime addition to the clayey soils is a significant loss in ductility of lime-treated soils. Using ductile materials such as geogrids in lime-treated soils is one of the most effective ways to increase the soil ductility. Therefore, the effect of geogrids and lime on unconfined compressive strength (UCS), failure strain (ɛf), secant modulus (Es), deformability indexes (ID), resilient modulus (Mr), bulk modulus (K), and shear modulus (G) of the treated soil was investigated in the current research study. The UCS test was carried out on modified specimens with geogrid and lime within 365 days curing period. The experimental results showed that adding geogrids and lime enhances the geotechnical characteristics of clayey soils, considerably. Finally, a simple mathematical model was developed to predict the features of the lime-geogrid treated clay.

Open Access Status

This publication is not available as open access

Volume

17

Issue

1

First Page

269

Last Page

281

Funding Number

116/3C-1394