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Volumn 20, Issue 24, 2009, Pages
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Ion beam-induced amorphous-to-tetragonal phase transformation and grain growth of nanocrystalline zirconia
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Author keywords
[No Author keywords available]
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Indexed keywords
AMBIENT CONDITIONS;
AMORPHOUS LAYER;
AMORPHOUS ZIRCONIA;
BI-LAYER;
DIFFERENT SIZES;
ELECTRICAL PROPERTY;
GRAIN SIZE;
ION BEAM BOMBARDMENT;
ION BEAM METHOD;
IRRADIATION CONDITIONS;
MONOCLINIC PHASIS;
NANO GRAINS;
NANOCRYSTALLINE ZIRCONIA;
PHYSICAL INTEGRITY;
RADIATION-INDUCED;
ROOM TEMPERATURE;
TEM;
TETRAGONAL PHASE;
TETRAGONAL STRUCTURE;
TETRAGONAL ZIRCONIA;
ZIRCONIA POLYMORPHS;
ELECTRIC PROPERTIES;
GRAIN GROWTH;
GRAIN SIZE AND SHAPE;
GROWTH KINETICS;
ION BEAMS;
ION BOMBARDMENT;
IONS;
KRYPTON;
NANOCRYSTALLINE POWDERS;
PHASE STABILITY;
POLYMORPHISM;
TRANSMISSION ELECTRON MICROSCOPY;
ZIRCONIA;
NANOCRYSTAL;
SMALLPOX VACCINE;
ZIRCONIUM OXIDE;
HEAVY ION;
NANOMATERIAL;
TITANIUM;
TITANIUM DIOXIDE;
ZIRCONIUM;
ARTICLE;
KINETICS;
PHYSICAL CHEMISTRY;
PRIORITY JOURNAL;
ROOM TEMPERATURE;
TRANSMISSION ELECTRON MICROSCOPY;
CHEMISTRY;
CONFORMATION;
CRYSTALLIZATION;
MACROMOLECULE;
MATERIALS TESTING;
METHODOLOGY;
NANOTECHNOLOGY;
PARTICLE SIZE;
PHASE TRANSITION;
RADIATION EXPOSURE;
SURFACE PROPERTY;
ULTRASTRUCTURE;
CRYSTALLIZATION;
HEAVY IONS;
MACROMOLECULAR SUBSTANCES;
MATERIALS TESTING;
MOLECULAR CONFORMATION;
NANOSTRUCTURES;
NANOTECHNOLOGY;
PARTICLE SIZE;
PHASE TRANSITION;
SURFACE PROPERTIES;
TITANIUM;
ZIRCONIUM;
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EID: 67649191900
PISSN: 09574484
EISSN: 13616528
Source Type: Journal
DOI: 10.1088/0957-4484/20/24/245303 Document Type: Article |
Times cited : (50)
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References (36)
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