Volume 39, Issue 2 (Journal of Advanced Materials-Summer 2020)                   2020, 39(2): 49-63 | Back to browse issues page


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Farhadian M, Raeissi K, Golozar M A. Effect of Amorphous Silica Addition on Martensitic Phase Transformation of Zirconia and Investigation of its Tetragonal Structure Stability Mechanisms. Journal of Advanced Materials in Engineering (Esteghlal) 2020; 39 (2) :49-63
URL: http://jame.iut.ac.ir/article-1-1071-en.html
Department of Materials Engineering, Isfahan University of Technology. , mousa.farhadian@ma.iut.ac.ir
Abstract:   (3014 Views)
This work is focused on the effect of amorphous SiO2 addition on the phase transformation and microstructural evolution of ZrO2 particles. Considering the structural similarities between the amorphous ZrO2 and its tetragonal structure, XRD results showed initial nucleation of metastable tetragonal ZrO2 from its amorphous matrix upon heat treatment. This metastable phase is unstable in pure ZrO2 sample and transforms to a stable monoclinic phase at around 600 oC. However, addition of amorphous SiO2 to ZrO2 structure causes metastable tetragonal phase to remain stable up to around 1100 oC. The temperature range for stability of metastable tetragonal ZrO2 structure increased from about 150 oC in pure ZrO2 particles to around 500 oC in ZrO2-10 mol.% SiO2 composite powders. A further increase in SiO2 content up to 30 mol.% did not change the stabilization temperature range but the average particle size reduced around 1.6 times compared to pure ZrO2 particles. Stabilization of metastable tetragonal ZrO2 explained by constrained effect of SiO2 layer surrounding zirconia nuclei. The thickness of this SiO2 layer enhanced by increasing SiO2 content which limited the growth of ZrO2 nuclei resulting in finer particle sizes.
Full-Text [PDF 1321 kb]   (875 Downloads)    
Type of Study: Research | Subject: Powder materials
Received: 2020/01/1 | Accepted: 2020/08/1 | Published: 2020/09/20

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