The physico-mechanical influence of dehydroxylized activated local kaolin: A supplementary cementitious material for construction applications
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Date
2019
Journal Title
Journal ISSN
Volume Title
Publisher
Case Studies in Construction Materials
Abstract
This work presents the effect of partially replacing metakaolin with Portland limestone
cement to produce mortars for construction. Teleku Bokazo kaolin was explored as an SCM for
the production of mortars. The hydration product between Portland limestone and
metakaolin was studied. The kaolin was heat treated to form metakaolin and partially used
to replace Portland limestone cement (PLC) in mortars to explore the optimum
replacement and its mechanical and durability effect. The samples were characterized
using X-ray diffraction (XRD) for phases and crystallinity of the kaolin. Fourier transform
infrared spectroscopy (FTIR) and Scanning electron microscopy (SEM) gave information on
the functional groups formed during the hydration and structure and surface morphology
respectively. The pastes and mortars produced were subjected to setting time, water
absorption, flexure, and compression strength tests. The mechanical properties were
observed to increase with increasing metakaolin replacements. Therefore, from the results
obtained, it is suggested that a 20 % replacement of Portland limestone cement with Teleku
Bokazzo metakaolin can be very suitable for construction applications.
Description
Research Article
Keywords
Cementitious, Dehydroxylation, Kaolinite, Construction, Mortars