Effect of the temperature and magnetic field induced martensitic transformation in bulk Fe45Mn26Ga29 alloy on its electronic structure and physical properties

Effect of the temperature and magnetic field induced martensitic transformation (MT) on the electronic structure and some physical properties of bulk Fe45.2Mn25.9Ga28.9 Heusler alloy has been investigated. According to the experimental results of DSC, magnetic and transport measurements direct and r...

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Bibliographic Details
Published inIntermetallics Vol. 109; pp. 85 - 90
Main Authors Kudryavtsev, Y.V., Uvarov, N.V., Perekos, A.E., Dubowik, J., Kozlova, L.E.
Format Journal Article
LanguageEnglish
Published Barking Elsevier Ltd 01.06.2019
Elsevier BV
Subjects
Austenite
Electrical resistivity
Electronic structure
First principles
Heusler alloys
High temperature
Magnetic fields
Magnetic properties
Martensite
Martensitic transformation
Martensitic transformations
Optical properties
Physical properties
Temperature
Heusler alloys
Martensitic transformation
Electronic structure
Optical properties
Magnetic properties
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Summary:Effect of the temperature and magnetic field induced martensitic transformation (MT) on the electronic structure and some physical properties of bulk Fe45.2Mn25.9Ga28.9 Heusler alloy has been investigated. According to the experimental results of DSC, magnetic and transport measurements direct and reverse martensitic transformation without external magnetic field takes place within 194 ≤T≤ 328 K temperature range with a hysteresis up to ΔT≈ 100 K defined as ΔT  =  Af,s - Ms,f, where Af,s and Ms,f are the critical temperatures of direct and reverse martensitic transformation. External magnetic field of μ0H  = 5 T causes a high-temperature shift of MT temperatures. MT from parent austenite L21 phase to martensitic tetragonally distorted L21 one (i. e. to L10) causes significant changes in the electronic structure of alloy, a drastic increase in alloy magnetization, a decrease in the alloy resistivity, and a reversal of the sign of the temperature coefficient of resistivity from negative to positive. At the same time experimentally determined optical properties of Fe45.6Mn25.9Ga28.9 Heusler alloy in austenitic and martensitic states look visually rather similar being noticeable different in microscopic nature as can be concluded from first-principle calculations. Experimentally observed changes in the physical properties of the alloy are discussed in terms of the electronic structures of an austenite and martensite phases. •L21 and L10 phases of Fe2MnGa alloy have noticeably different electronic structures.•Martensitic transformation in Fe2MnGa alloy changes its physical properties.•Changes in physical properties explained in terms of electronic structure of alloy.•External magnetic filed causes high-temperature shift of critical temperatures.
ISSN:0966-9795
1879-0216
DOI:10.1016/j.intermet.2019.03.008