Sustainable use of laterite replaced with bottom ash as road construction materials

Bottom ash (BTA), a byproduct of burning coal in electric power plants, is often considered waste.
Managing significant quantities of bottom ash remains a challenge. Laterite, commonly used in road
construction, may not meet the required standards in some regions, necessitating the transport of
higher-quality laterite from distant locations. This practice increases construction costs. This research
explores the use of bottom ash and cement as replacements for laterite in pavement materials. The
proportion of bottom ash used varied from 10 to 50% by dry weight of the laterite, while the cement
contents were 1, 3, 5, and 7% by dry weight of the laterite-bottom ash mixture. The experiments included
unconfined compressive strength, splitting tensile strength, California bearing ratio, and durability
against wetting-drying cycles. The results indicate that the stabilised laterite significantly increases
strength values—2 to 14 times greater than those of unstabilised laterite, with 20% bottom ash replacement
yielding the best results. Microstructural analyses confirmed the strength test outcomes. Replacing
laterite with bottom ash and cement proves to be a sustainable method for road construction, offering
cost-effectiveness, conservation of natural resources, pollution reduction, and enhanced energy efficiency
in accordance with the standards of the Department of Highways of Thailand.