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Structure and Magnetic Properties of Vanadium-Doped Heusler Ni-Mn-In Alloys
Structure and Magnetic Properties of Vanadium-Doped Heusler Ni-Mn-In Alloys
by Kuznetsova, Elena , Mashirov, Alexey , Gaifullin, Ruslan , Koledov, Victor , Musabirov, Irek , Danilov, Denis , Ari-Gur, Pnina , Kolkov, Maxim , Kuznetsov, Dmitry , Kamantsev, Alexander , Taskaev, Sergey , Shandryuk, Georgy
in Alloying / Alloys / Analysis / Antiphase boundaries / Austenite / Chemical elements / Cooling / Crystal structure / Crystals / Decomposition / Heusler alloys / High resolution electron microscopy / High temperature / Homogenization / Magnetic fields / Magnetic properties / Martensite / martensitic transformation / Martensitic transformations / meta-magnetostructural transitions / Microelectromechanical systems / Microscopy / microstructure / Morphology / Nickel base alloys / Physical properties / Rapid quenching (metallurgy) / Shape memory alloys / Solid solutions / Specialty metals industry / Structure / Transition temperature / Transition temperatures / Transmission electron microscopy / Tweed contrast / Vanadium
2025
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Structure and Magnetic Properties of Vanadium-Doped Heusler Ni-Mn-In Alloys
by Kuznetsova, Elena , Mashirov, Alexey , Gaifullin, Ruslan , Koledov, Victor , Musabirov, Irek , Danilov, Denis , Ari-Gur, Pnina , Kolkov, Maxim , Kuznetsov, Dmitry , Kamantsev, Alexander , Taskaev, Sergey , Shandryuk, Georgy
in Alloying / Alloys / Analysis / Antiphase boundaries / Austenite / Chemical elements / Cooling / Crystal structure / Crystals / Decomposition / Heusler alloys / High resolution electron microscopy / High temperature / Homogenization / Magnetic fields / Magnetic properties / Martensite / martensitic transformation / Martensitic transformations / meta-magnetostructural transitions / Microelectromechanical systems / Microscopy / microstructure / Morphology / Nickel base alloys / Physical properties / Rapid quenching (metallurgy) / Shape memory alloys / Solid solutions / Specialty metals industry / Structure / Transition temperature / Transition temperatures / Transmission electron microscopy / Tweed contrast / Vanadium
2025
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Structure and Magnetic Properties of Vanadium-Doped Heusler Ni-Mn-In Alloys
Structure and Magnetic Properties of Vanadium-Doped Heusler Ni-Mn-In Alloys
by Kuznetsova, Elena , Mashirov, Alexey , Gaifullin, Ruslan , Koledov, Victor , Musabirov, Irek , Danilov, Denis , Ari-Gur, Pnina , Kolkov, Maxim , Kuznetsov, Dmitry , Kamantsev, Alexander , Taskaev, Sergey , Shandryuk, Georgy
in Alloying / Alloys / Analysis / Antiphase boundaries / Austenite / Chemical elements / Cooling / Crystal structure / Crystals / Decomposition / Heusler alloys / High resolution electron microscopy / High temperature / Homogenization / Magnetic fields / Magnetic properties / Martensite / martensitic transformation / Martensitic transformations / meta-magnetostructural transitions / Microelectromechanical systems / Microscopy / microstructure / Morphology / Nickel base alloys / Physical properties / Rapid quenching (metallurgy) / Shape memory alloys / Solid solutions / Specialty metals industry / Structure / Transition temperature / Transition temperatures / Transmission electron microscopy / Tweed contrast / Vanadium
2025

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Structure and Magnetic Properties of Vanadium-Doped Heusler Ni-Mn-In Alloys
Structure and Magnetic Properties of Vanadium-Doped Heusler Ni-Mn-In Alloys
Journal Article

Structure and Magnetic Properties of Vanadium-Doped Heusler Ni-Mn-In Alloys

Kuznetsova, Elena,
Mashirov, Alexey,
Gaifullin, Ruslan,
Koledov, Victor,
Musabirov, Irek,
Danilov, Denis,
Ari-Gur, Pnina,
Kolkov, Maxim,
Kuznetsov, Dmitry,
Kamantsev, Alexander,
Taskaev, Sergey,
Shandryuk, Georgy
2025
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Overview
The crystal structure, texture, martensitic transformation, and magnetic properties of magnetic shape-memory Heusler alloys of Ni51−xMn33.4In15.6Vx (x = 0; 0.1; 0.3; 0.5; 1) were investigated. Experimental studies of the magnetic properties and meta-magnetostructural transition (martensitic transition—MT) confirm the main sensitivity of the martensitic transition temperature to vanadium doping and to an applied magnetic field. This makes this family of shape-memory alloys promising for use in numerous applications, such as magnetocaloric cooling and MEMS technology. Diffuse electron scattering was analyzed, and the structures of the austenite and martensite were determined, including the use of TEM in situ experiments during heating and cooling for an alloy with a 0.3 at.% concentration of V. In the austenitic state, the alloys are characterized by a high-temperature-ordered phase of the L21 type. The images show nanodomain structures in the form of tweed contrast and contrast from antiphase domains and antiphase boundaries. The alloy microstructure in the temperature range from the martensitic finish to 113 K consists of a six-layer modulated martensite, with 10 M and 14 M modulation observed in local zones. The morphology of the double structure of the modulated martensite structure inherits the morphology of the nanodomain structure in the parent phase. This suggests that it is possible to control the structure of the high-temperature austenite phase and the temperature of the martensitic transition by alloying and/or rapidly quenching from the high-temperature phase. In addition, attention is paid to maintaining fine interface structures. High-resolution transmission electron microscopy showed good coherence along the austenite–martensite boundary.
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Publisher
MDPI AG,Multidisciplinary Digital Publishing Institute (MDPI)
Subject

Alloying

/ Alloys

/ Analysis

/ Antiphase boundaries

/ Austenite

/ Chemical elements

/ Cooling

/ Crystal structure

/ Crystals

/ Decomposition

/ Heusler alloys

/ High resolution electron microscopy

/ High temperature

/ Homogenization

/ Magnetic fields

/ Magnetic properties

/ Martensite

/ martensitic transformation

/ Martensitic transformations

/ meta-magnetostructural transitions

/ Microelectromechanical systems

/ Microscopy

/ microstructure

/ Morphology

/ Nickel base alloys

/ Physical properties

/ Rapid quenching (metallurgy)

/ Shape memory alloys

/ Solid solutions

/ Specialty metals industry

/ Structure

/ Transition temperature

/ Transition temperatures

/ Transmission electron microscopy

/ Tweed contrast

/ Vanadium

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