Litcius/Paper detail

Feasibility of Alkali-Activated Low-Calcium Fly Ash as a Binder for Deep Soil Mixing

Vamsi N. K. Mypati, Sireesh Saride

2021Journal of Materials in Civil Engineering38 citationsDOI

Abstract

This study investigates the suitability of low-calcium fly ash (FA) for stabilizing expansive soil (ES) using the in-situ deep soil mixing (DSM) technique. The primary objective of the study was to control the swell-shrink behavior of ES and achieve higher strength characteristics. Owing to the presence of a low amount of calcium oxide (CaO) in Class-F fly ash (FA), an alkali environment is required to produce pozzolanic reactions involving silica and alumina. In this study, the alkali environment in the FA was created by adding a 50:50 ratio of sodium hydroxide (NaOH) and liquid sodium silicate (Na2SiO3) solution, referred to as liquid alkali activator (LAA). The properties of stabilized ES were investigated through Atterberg limits, one-dimensional swell tests, linear shrinkage tests, consolidation tests, and unconfined compressive strength tests. Further, scanning electron microscopy images and X-ray diffraction tests were performed on stabilized samples to understand the microstructural and physicochemical reaction mechanisms. The tests were conducted by varying the binder ratio (LAA/FA) from 0 to 1.5 for curing periods of 7, 14, and 28 days. The results showed that the binder ratio LAA/FA=1.5 effectively controlled the swell-shrink behavior of ES. A 10-fold improvement in UCS was observed for LAA/FA=1.50 at a 28-day curing period. Linear shrinkage strains and swell potential of the ES were reduced by 97% and 83%, respectively, with LAA/FA=1.5 at 28 days of curing. Overall, LAA/FA=1.5 is considered an optimum binder ratio to prepare DSM columns.

Topics & Concepts

Fly ashMaterials scienceCuring (chemistry)Compressive strengthSodium silicateCalcium oxideAtterberg limitsShrinkageCalcium hydroxidePozzolanComposite materialSodium hydroxideExpansive clayCementScanning electron microscopeCalcium silicateWater contentChemical engineeringGeotechnical engineeringSoil waterMetallurgyPortland cementGeologySoil scienceEngineeringConcrete and Cement Materials ResearchInnovative concrete reinforcement materialsMagnesium Oxide Properties and Applications