Journal
JOURNAL OF SOLID STATE CHEMISTRY
Volume 201, Issue -, Pages 56-62Publisher
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.jssc.2013.02.011
Keywords
Yttria; Powder metallurgy; Nanostructure; Phase transition
Funding
- Korea Atomic Energy Research Institute (KAERI) RD Program
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The formation behavior of Y2O3 ceramic particles was studied by employing a very high energy ball milling (milling energy: similar to 165 kJ/g . hit, milling speed: 1000 rpm). Both the XRD ad HRTEM studies revealed that the high impact strain energy generated during the milling caused a drastic phase transition from the original C-type cubic (space group Ia3, a=10.58 angstrom) to the metastable B-type monoclinic (space group C2/m, a=13.89 angstrom), finally followed by a partial solid-state amorphization. The cubic phase was difficult to be reduced down to smaller than 10 nm, while the monoclinic phase was stabilized at sizes smaller than 10 nm with a mean crystallite size of 7.57 nm. Consequently, the existence of Y2O3 at a nanoscale smaller than 10 nm is possible by forming metastable monoclinic crystals, which are strain-induced. Crown Copyright (C) 2013 Published by Elsevier Inc. All rights reserved.
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