Issue 20, 2024, Issue in Progress

The effects of crystal structure on the chemical durability of yttrium disilicate

Abstract

Amorphous, α, β, and γ-phase yttrium disilicate Y2Si2O7 pellets were synthesized by spark plasma sintering, and their chemical durability and degradation mechanisms were investigated via semi-dynamic leaching test in pH = 3 nitric acid at 90 °C. All crystalline phases displayed relatively congruent dissolution with a slight preferential release of Y. The amorphous sample showed clear incongruent dissolution with preferential release of Y, leading to a surface reorganization reaction and the formation of a SiO2 passivation layer 20–25 μm thick on the surface of the sample. This passivation layer led to a continuous decrease in the elemental release rates of the amorphous sample. The γ-phase sample displayed the lowest short-term and long-term leaching rates of Y and Si, followed by the β, α, and then amorphous sample. The crystalline samples showed increasing release rates over time indicating a dissolution-controlled reaction mechanism. Post-leaching microstructural characterization of the β and γ samples revealed variations in the corrosion levels of the surface grains, indicating a dependence on grain orientation.

Graphical abstract: The effects of crystal structure on the chemical durability of yttrium disilicate

Article information

Article type
Paper
Submitted
11 Feb 2024
Accepted
22 Apr 2024
First published
29 Apr 2024
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2024,14, 13997-14007

The effects of crystal structure on the chemical durability of yttrium disilicate

K. Bryce, K. Yang, M. Li, D. Zhao and J. Lian, RSC Adv., 2024, 14, 13997 DOI: 10.1039/D4RA01072H

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