Physicochemical and Mineralogical Characteristics of Geopolymer Formulated from Kaolinitic Clay
- Journal of Materials Science Researc , 15 (1) : 9-26
Résumé
Abstract
Canola meal as a by-product from the vegetable oil production provides a protein-rich material which is available
This study investigated the potential of Burkina Faso’s local kaolin clay in formulation of geopolymer bricks. The
formulation used a mixture of raw clay and activator alkaline solutions with varying concentrations. Prismatic
molds were used to shape geopolymerized adobes. The physicochemical characteristics of the samples, including
water absorption, linear shrinkage, density, porosity and spray test, were determined after 28 days. According to
the standard NF P 15-471 mechanical analyses revealed that the geopolymer, formulated from locally sourced clay
and a (NaOH + sand) solution with 10M concentration, exhibited favorable performance characteristics essential
for civil engineering construction. These include a maximum linear shrinkage of 5.31%, a density ranging from
1.607 g. cm−3
to 1.900 g. cm−3
, porosity of 29.90%, acceptable mass loss following a rain erosion test of 0.56%,
and excellent compressive strength of 28 MPa. Mineralogical characterization results demonstrated that all
formulated bricks contain quartz, kaolinite, goethite and a novel phase Na2(AlSiO4)6(OH)2
. 2H2O.
Mots-clés
alkaline solution; brick; clay