Fe-based nano-structured powder reinforced Zr-based bulk metallic glass composites by powder consolidation

Authors
Cho, S.M.Han, J.H.Lee, J.K.Kim, Y.C.
Issue Date
2009-10
Citation
Korean Journal of Materials Research, v.19, no.9, pp.504 - 509
Abstract
The Zr-based bulk metallic glass matrix composites of a mixture of gas-atomized metallic glass powders and Fe-based nanostructured powders were fabricated by spark plasma sintering. The Fe-based nanostructured powders adopted for the enhancement of plasticity were well distributed in the matrix after consolidation, and the matrix remains as a fully amorphous phase. The successful consolidation of metallic glass matrix composite with high density was attributed to viscous flow in the supercooled liquid state during spark plasma sintering. Unlike other amorphous matrix composites, in which improved ductility could be obtained at the expense of their strength, the developed composite exhibited improvement both in strength and ductility. The ductility improvement in the composite was considered to be due to the formation of multiple shear bands under the presence of the Fe-based nanostructured particles.
Keywords
Amorphous matrices; Amorphous phase; Ductility improvement; High density; matrix; Metallic glass matrix composite; Metallic glass powders; Nano-structured; Nanostructured particles; Nanostructured powders; Powder consolidations; Supercooled liquid state; Thermal analysis; Zr based bulk metallic glass; Alumina; Aluminum powder metallurgy; Ductility; Electric sparks; Glass; Mechanical properties; Metallic matrix composites; Metallurgy; Nanostructured materials; Nanostructures; Plasmas; Spark plasma sintering; Supercooling; Thermoanalysis; Zirconium; Metallic glass; Amorphous matrices; Amorphous phase; Ductility improvement; High density; matrix; Metallic glass matrix composite; Metallic glass powders; Nano-structured; Nanostructured particles; Nanostructured powders; Powder consolidations; Supercooled liquid state; Thermal analysis; Zr based bulk metallic glass; Alumina; Aluminum powder metallurgy; Ductility; Electric sparks; Glass; Mechanical properties; Metallic matrix composites; Metallurgy; Nanostructured materials; Nanostructures; Plasmas; Spark plasma sintering; Supercooling; Thermoanalysis; Zirconium; Metallic glass; Mechanical properties; Metallic glass; Nano-structure powder; Powder metallurgy; Spark plasma sintering; Thermal analysis
ISSN
1225-0562
URI
https://pubs.kist.re.kr/handle/201004/132142
DOI
10.3740/MRSK.2009.19.9.504
Appears in Collections:
KIST Article > 2009
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