Properties of compressed lateritic soil stabilized with a burnt clay-lime binder: Effect of mixture components

In this study, a pozzolanic binder containing lime and a common thermally activated kaolinitic clay, at 750 degrees C, was formulated. The chemical, mineralogical and pozzolanic properties of raw materials were determined. The percentage of lime in the binder varies between 20% and 30%. The binder was used as a stabilizer in compressed lateritic soil in which water-solid (laterite and binder) and laterite-binder ratios vary, respectively, from 0.12 to 0.20 and 4 to 9. Sodium hydroxide (NaOH) was added as a chemical activator in the mixture. The NaOH-binder ratio varies from 0.02 to 0.04. The average effect of each component of the mixture on compressive strength, water absorption and apparent density of compressed laterite after 7 or 28 days of conservation at 40 +/- 1 degrees C in an atmosphere saturated with water vapour was evaluated in a screening design of the "design in graeco - latin squares" type. It was observed that water-solid and laterite-binder ratios are the factors that influence more the properties of the products. Compressive strength increases Lip to a water-solid ratio of 0.16 then decreases for higher ratios. Compressive strength decreases with the increase of laterite-binder ratio. Water absorption decreases with the increase of water-solid ratio up to 0.16 then sharply increases for higher ratios. However, water absorption decreases slightly with the increase in the lime content of the binder and sodium hydroxide-binder ratio. The maximum apparent density is observed at water-solid ratio of 0.16. It increases when sodium hydroxide-binder and laterite-binder ratios increase. (C) 2008 Elsevier Ltd. All rights reserved.