Synthesizing of Novel Bulk (Zr67Cu33)100−xWx(x; 5–30 at%) Glassy Alloys by Spark Plasma Sintering of Mechanically Alloyed Powders

Metallic glassy alloys with their short-range order have received considerable attention since their discovery in 1960’s. The worldwide interest in metallic glassy alloys is attributed to their unique mechanical, physical, and chemical properties, which cannot be found together in long-range order a...

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Bibliographic Details
Published in:Molecules (Basel, Switzerland) Switzerland), 2020-04, Vol.25 (8), p.1906
Main Authors: El-Eskandarany, M. Sherif, Ali, Naser
Format: Article
Language:English
Subjects:
Alloy powders
Alloy systems
Alloys
Amorphous alloys
Amorphous materials
Bulk density
Chemical properties
Crystal structure
Crystallization
glass forming ability
Glass transition temperature
Long range order
Mechanical alloying
Melting points
Metallic glasses
Metals
metastable phase
Microhardness
Morphology
Plasma sintering
powder consolidation
Raw materials
Short range order
Solid solutions
solid-state reaction
Solidification
Stainless steel
Tantalum
Temperature
Ternary systems
Thermal stability
Transition temperatures
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Summary:Metallic glassy alloys with their short-range order have received considerable attention since their discovery in 1960’s. The worldwide interest in metallic glassy alloys is attributed to their unique mechanical, physical, and chemical properties, which cannot be found together in long-range order alloys of the same compositions. Traditional preparation methods of metallic glasses, such as rapid solidification of melts, always restrict the formation of glassy alloys with large atomic fraction (above 3–5 at%) of high melting point metals (Ta, Mo, W). In this study, (Zr67Cu33)100−xWx(x; 5–30 at%) metallic glassy alloys were fabricated through a mechanical alloying approach, which starts from the elemental powders. This system shows excellent glass forming ability in a wide range of W (0 ≤ x ≥ 30 at%). We have proposed a spark plasma sintering technique to prepare nearly full-dense large sized (20 × 20 mm) bulk metallic glassy alloys. The as-consolidated bulk metallic glassy alloys were seen to possess high thermal stability when compared with the other metallic glassy systems. This is implied by their high glass transition temperature (722–735 K), wide range of supercooled liquid region (39 K to over 100 K), and high values of crystallization temperature (761 K to 823 K). In addition, the fabricated ternary systems have revealed high microhardness values.
ISSN:1420-3049
1420-3049
DOI:10.3390/molecules25081906