Journal of Engineering Analysis and Design (e-ISSN: 3048-7579)

This study evaluates the feasibility of using quicklime as a partial substitute for Portland cement in stabilizing lateritic soil for construction applications, focusing on its impact on California Bearing Ratio (CBR), Unconfined Compressive Strength (UCS), and Elastic Modulus. Laboratory tests were conducted on lateritic soil samples stabilized with cement and quicklime at substitution rates of 3%, 6%, 9%, 12%, and 15%. Results indicate that 9% quicklime substitution optimizesCBR(38.6% un-soaked, 31.4% soaked), while 12% substitution maximizes UCS (190.88 psi). Elastic Modulus also improved significantly at 9% and 12% substitutions. These findings suggest that quicklime can enhance the mechanical properties of stabilized lateritic soil while offering cost and environmental benefits. The study recommends 9–12% quicklime substitution for sustainable stabilization in low-to-medium traffic road construction.

AASHTO Soil Classification System: Categorizes Soils Based on Their Suitability for Highway and Pavement Construction.

AASHTO T288 Standard test method for determining minimum laboratory soil resistivity

ASTM D2166/D2166M. Standard test method for unconfined compressive strength of cohesive soil. ASTM International.

ASTM D3999. Standard test methods for the determination of the modulus and damping properties of soils using the cyclic tri-axial apparatus. ASTM International.

ASTM D4123. Standard test method for indirect tension test for resilient modulus of bituminous mixtures. ASTM International.

BS 1377:1990. Standard contains general information relating to the tests, common calibration and specification requirements and general requirements for testing laboratories and field work

BS 1377: Part 2 (1990). British Standards Methods of Test for the Classification of Soil and for the Determination of Geotechnical Properties of Soils in the Laboratory

Ding, X., Zhang, X., Wang, X., & Zhu, J. (2020). Environmental impact assessment of quicklime and cement production: A comparative analysis. Journal of Cleaner Production, 256, 120316. https://doi.org/10.1016/j.jclepro.2020.120316

EuroSoilStab. (2002). Engineering procedures for soil improvement by EuroSoilStab. Thomas Telford.

Habert, G., De Lacaillerie, D., & Roussel, N. (2010). An environmental evaluation of geopolymer based concrete production: Reviewing current research trends. Journal of Cleaner Production, 18(5), 478–488. https://doi.org/10.1016/j.jclepro.2009.11.019