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Volumn 26, Issue 1, 2010, Pages 87-94
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Investigating influence of hybrid (yttria + copper) nanoparticulate reinforcements on microstructural development and tensile response of magnesium
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Author keywords
Ceramic particulate reinforcements; Ductility; Magnesium; Metal particulates; Strength
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Indexed keywords
CERAMIC PARTICULATE REINFORCEMENT;
CERAMIC PARTICULATE REINFORCEMENTS;
GRAIN SIZE;
HOT EXTRUSION;
HYBRID NANOCOMPOSITES;
MAGNESIUM METAL;
MAGNESIUM NANO-COMPOSITES;
MATRIX;
MICROSTRUCTURAL DEVELOPMENT;
MICROWAVE SINTERING;
MONOLITHIC MAGNESIUM;
NANO COPPER;
NANO-SIZE;
NANOPARTICULATES;
PURE MAGNESIUM;
TENSILE RESPONSE;
TEST RESULTS;
UNIAXIAL TENSIONS;
UNIFORM DISTRIBUTION;
VOLUME PERCENTAGE;
CERAMIC MATERIALS;
COPPER;
DUCTILITY;
HYBRID MATERIALS;
INTERMETALLICS;
MAGNESIUM;
MAGNESIUM PRINTING PLATES;
METALLURGY;
NANOCOMPOSITES;
REINFORCEMENT;
SINTERING;
TENSILE STRENGTH;
YTTRIUM ALLOYS;
MAGNESIUM POWDER;
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EID: 75449108168
PISSN: 02670836
EISSN: 17432847
Source Type: Journal
DOI: 10.1179/174328408X388095 Document Type: Article |
Times cited : (31)
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References (30)
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