Three-Stage Evolution of the Structure and the Effect of Nonadditive Hardening of Layered Composites of Amorphous Alloys under High-Pressure Torsion

Three-Stage Evolution of the Structure and the Effect of Nonadditive Hardening of Layered Composites of Amorphous Alloys under High-Pressure Torsion

The local chemical composition of composites consisting of alternating layers of Co 28.2 Fe 38.9 Cr 15.4 Si 0.3 B 17.2 and Fe 53.9 Ni 26.5 B 20.2 amorphous alloys subjected to torsion with increasing number of revolutions (true plastic strain) at high quasihydrostatic pressure in a Bridgman anvil ce...

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Veröffentlicht in:JETP letters 2021-04, Vol.113 (7), p.471-476
Hauptverfasser: Permyakova, I. E., Glezer, A. M., Kovalev, A. I., Vakhrushev, V. O.
Format: Artikel
Sprache:eng
Schlagworte:
Amorphous alloys
Atomic
Biological and Medical Physics
Biophysics
Chemical composition
Composite materials
Condensed Matter
Laminates
Machining
Metallic glasses
Microhardness
Molecular
Multilayers
Optical and Plasma Physics
Particle and Nuclear Physics
Physics
Physics and Astronomy
Plastic deformation
Quantum Information Technology
Solid State Physics
Spintronics
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Zusammenfassung:The local chemical composition of composites consisting of alternating layers of Co 28.2 Fe 38.9 Cr 15.4 Si 0.3 B 17.2 and Fe 53.9 Ni 26.5 B 20.2 amorphous alloys subjected to torsion with increasing number of revolutions (true plastic strain) at high quasihydrostatic pressure in a Bridgman anvil cell is studied by time-of-flight mass spectroscopy. Three-stage transformation of the structure of composites with an increase in the strain is revealed. It is found that the average microhardness of the composite at a certain stage of machining exceeds the microhardness of its individual amorphous alloy components. The nature of the observed effects is discussed in terms of the features inherent in severe plastic deformations.
ISSN:0021-3640
1090-6487
DOI:10.1134/S0021364021070080