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Improvement of cement pastes composite properties containing clay-nano-particles

Ceramics-Silikáty • 2020
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Publication Information
Authors 112. Mohamed Heikal, H, El-Didamony, I.M. Helmy, S.Awad N.S. Ibrahim
Keywords Clay nanoparticles, FA, FBFS, Hydration characteristics, Compressive strength
Journal Ceramics-Silikáty
Publisher University of Chemistry and Technology, Prague Institute of Rock Structure and Mechanics of the CAS
Volume 64
Issue (4),
Pages 398-406 (2020)
publication.type International
Paper Link Open Link
Supplementary Materials Not Available
Abstract
The present work aims to investigate the influence of clay nanoparticles (CNP) on the mechanical, physical and microstructure
cement pastes composites. The cement paste composites were formulated by adding 20-60 mass % fly ash (FA), fine blast
furnace slag (FBFS) and/or 6 mass % clay nanoparticles. The physico-chemical properties of the cement paste composites
(CPC) were improved by the substitution of 6 % CNP in instead of OPC (ordinary Portland cement) in the consistence
of the superplasticiser (SP). The physico-mechanical properties and hydration characteristics were investigated by the
determination of the setting times (STs), the consistency (W/C, %), the free lime (FL), the combined water (Wn), the gel/
space ratio (X), the total porosity (TP), the compressive strength (CS) and the bulk density (BD). The compressive strength
values of the cement-CNP hybrid were higher than those of the cement paste composites without CNP. The STs of CPC-pastes
containing CNP were accelerated. The CNP showed synergetic effect with the FA and FBFS to enhance the performance of
pozzolanic reaction to form supplementary CSH, CAH and CASH, these phases are responsible for bridging, producing a
rigid closed compact structure; hence the compressive strength, gel/space ratio, bulk density and chemically combined water
increased, whereas the porosity decreased.