Do smaller oxide particles sinter worse? Paradoxes of the initial stages of sintering of zirconia nanoparticles

Igor Danilenko; Marharyta Lakusta; Larisa Loladze; Galina Volkova; Inna Popov; Valentina Glazunova; Leonid Akhkozov; Andrii Shut; Tetyana Konstantinova

Results in Physics (Nov 2022)

Do smaller oxide particles sinter worse? Paradoxes of the initial stages of sintering of zirconia nanoparticles

Igor Danilenko,
Marharyta Lakusta,
Larisa Loladze,
Galina Volkova,
Inna Popov,
Valentina Glazunova,
Leonid Akhkozov,
Andrii Shut,
Tetyana Konstantinova

Affiliations

Igor Danilenko: Donetsk Institute for Physics and Engineering named after O.O. Galkin NAS of Ukraine, Nauki av. 46, Kyiv 03028, Ukraine; Corresponding author.
Marharyta Lakusta: Donetsk Institute for Physics and Engineering named after O.O. Galkin NAS of Ukraine, Nauki av. 46, Kyiv 03028, Ukraine; Missouri University of Science and Technology, McNutt Hall, 1400 North Bishop, Rolla, MO 65409, USA
Larisa Loladze: Donetsk Institute for Physics and Engineering named after O.O. Galkin NAS of Ukraine, Nauki av. 46, Kyiv 03028, Ukraine
Galina Volkova: Donetsk Institute for Physics and Engineering named after O.O. Galkin NAS of Ukraine, Nauki av. 46, Kyiv 03028, Ukraine
Inna Popov: The Center for Nanoscience and Nanotechnology, The Hebrew University of Jerusalem, Jerusalem, Israel
Valentina Glazunova: Donetsk Institute for Physics and Engineering named after O.O. Galkin NAS of Ukraine, Nauki av. 46, Kyiv 03028, Ukraine
Leonid Akhkozov: Donetsk Institute for Physics and Engineering named after O.O. Galkin NAS of Ukraine, Nauki av. 46, Kyiv 03028, Ukraine
Andrii Shut: National Technical University of Ukraine “Igor Sicorsky Kyiv Polytechnic Institute”, Kyiv Ukraine
Tetyana Konstantinova: Donetsk Institute for Physics and Engineering named after O.O. Galkin NAS of Ukraine, Nauki av. 46, Kyiv 03028, Ukraine

Journal volume & issue: Vol. 42
p. 106027

Abstract

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The effect of particle size on the dominant densification mechanism at the initial stage of sintering of tetragonal zirconia nanoparticles was investigated. It has been found that a decrease in the particle size of zirconia leads to a change in the diffusion mechanism. The volume diffusion mechanism identified by the value of densification parameter n = 0.5 was dominant in zirconia nanoparticles with the average particle size 32 and 26.2 nm. The grain-boundary diffusion mechanism (n = 0.3) dominated during the sintering zirconia nanoparticles with the average particle size 21.7 nm. It was established that the change in densification parameter n from 0.5 to 0.3 caused by the increase in the value of particle surface to volume ratio due to the particles size decrease from 32 to 21 nm. A further decrease in the particle size to 17–12 nm led to a decrease in the densification parameter n to 0.17–0.11, respectively. This may be due to an increase in the influence of the particle surface on the sintering process (large values of particle surface to volume ratio) and, accordingly, the action of the surface diffusion mechanism.

Published in Results in Physics

ISSN: 2211-3797 (Online)
Publisher: Elsevier
Country of publisher: Netherlands
LCC subjects: Science: Physics
Website: http://www.journals.elsevier.com/results-in-physics/

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