Publication detail
Orthorhombic intermediate phase originating from {110} nanotwinning in Ni50.0Mn28.7Ga21.3 modulated martensite
STRAKA, L. DRAHOKOUPIL, J. VEŘTÁT, P. KOPEČEK, J. ZELENÝ, M. SEINER, H. HECZKO, O.
English title
Orthorhombic intermediate phase originating from {110} nanotwinning in Ni50.0Mn28.7Ga21.3 modulated martensite
Type
journal article in Web of Science
Language
en
Original abstract
The temperature evolution of the structure of Ni50.0Mn28.7Ga21.3 single crystals exhibiting magnetic shape memory effect was investigated near the martensitic transformation by X-ray diffraction. Upon heating, five-layered modulated monoclinic martensite (10M) with a=0.5974 nm, b=0.5949 nm, c=0.5589 nm, and γ=90.34° at room temperature (297 K) changed to an intermediate (10M′) phase with a=b=0.5945 nm, c=0.5616 nm, and γ=90.25° at a few tenths of kelvin below the transformation to austenite at TA=327 K. This previously unreported 10M′ phase between 10M martensite and austenite can be described as orthorhombic using axes diagonal to the original a and b axes derived from the cubic L21 cell. Upon cooling, the phase remained stable in a broader temperature interval down to temperature T=318 K at which it transformed back to monoclinic 10M structure with a≠b. The transformation temperature coincided with the martensitic transformation temperature TM=318 K. The SEM observations and theoretical X-ray diffraction calculations indicate that the intermediate phase is actually the nanotwinned original 10M phase. This {110} nanotwinning with ≈ 20 nm mean twin width originates from the complex hierarchical branching on the austenite nucleus–martensite interface.
English abstract
The temperature evolution of the structure of Ni50.0Mn28.7Ga21.3 single crystals exhibiting magnetic shape memory effect was investigated near the martensitic transformation by X-ray diffraction. Upon heating, five-layered modulated monoclinic martensite (10M) with a=0.5974 nm, b=0.5949 nm, c=0.5589 nm, and γ=90.34° at room temperature (297 K) changed to an intermediate (10M′) phase with a=b=0.5945 nm, c=0.5616 nm, and γ=90.25° at a few tenths of kelvin below the transformation to austenite at TA=327 K. This previously unreported 10M′ phase between 10M martensite and austenite can be described as orthorhombic using axes diagonal to the original a and b axes derived from the cubic L21 cell. Upon cooling, the phase remained stable in a broader temperature interval down to temperature T=318 K at which it transformed back to monoclinic 10M structure with a≠b. The transformation temperature coincided with the martensitic transformation temperature TM=318 K. The SEM observations and theoretical X-ray diffraction calculations indicate that the intermediate phase is actually the nanotwinned original 10M phase. This {110} nanotwinning with ≈ 20 nm mean twin width originates from the complex hierarchical branching on the austenite nucleus–martensite interface.
Keywords in English
Ni2MnGa; Magnetic shape memory; Martensitic transformation; Nanotwins; Adaptive phase
Released
15.06.2017
Publisher
Elsevier
ISSN
1359-6454
Volume
132
Number
-
Pages from–to
335–344
Pages count
10
BIBTEX
@article{BUT135392,
author="Ladislav {Straka} and Jan {Drahokoupil} and Petr {Veřtát} and Jaromír {Kopeček} and Martin {Zelený} and Hanuš {Seiner} and Oleg {Heczko},
title="Orthorhombic intermediate phase originating from {110} nanotwinning in Ni50.0Mn28.7Ga21.3 modulated martensite",
year="2017",
volume="132",
number="-",
month="June",
pages="335--344",
publisher="Elsevier",
issn="1359-6454"
}