Add to ORKGNi55Mn22Ga23−xAlx (0 ≤ x ≤ 5) melt spun ribbons homogenized at 1073 K for 30 h exhibited an elevation in martensitic transformation onsets and a reduction in Curie temperature with increase in Al content. The phenomenon has been attributed to different site occupancy by Al, exchange coupling and paramagnetic martensite during thermal and magnetic transitions. Transmission Electron microscopy revealed systematic patterns of dislocations in alloy with x = 1, which become denser at high Al content. X = 1 alloy revealed high magnetic field induced strain (MFIS) value it is attributed to a critical combination of austenite and martensite phase
Ferromagnetic shape memory alloys (FSMA) have recently attracted much interest and research because ...
solidification route by melt spinning has been adopted for preparation of a Ni52.5Mn24.5Ga23 (at %) ...
"Phase coexistence phenomena related to direct and reverse martensitic transformation have been stud...
The effect of annealing on melt spun Ni55Mn22Ga23 (at. %) ribbon has been addressed in terms of stru...
The investigation addresses the effect of magnetizing field on the magnetic properties of melt spun ...
Ni$_{49.7}$Mn$_{29.1}$ Ga$_{21.2}$ magnetic shape memory sample showing magnetic-field-induced strai...
In recent years, a lot of investigations have been focused on ferromagnetic shape memory alloys (FSM...
The present study reports on the analysis of the microstructure, martensitic transformation, and the...
The investigation is focussed on the magnetic and structural behaviour in a Ni-rich off-stoichiometr...
Magnetic Shape Memory Alloys exhibit multifunctional properties due the martensitic transformation (...
Magnetic Shape Memory Alloys exhibit multifunctional properties due the martensitic transformation (...
Magnetic Shape Memory Alloys exhibit multifunctional properties due the martensitic transformation (...
Ferromagnetic shape memory alloys emerge as new functional materials which have interesting magnetom...
The present paper deals with the thermal- and stress-induced martensitic transformations, effects of...
Lattice parameters, elastic modulus, internal friction, superelasticity, and shape memory effect are...
Ferromagnetic shape memory alloys (FSMA) have recently attracted much interest and research because ...
solidification route by melt spinning has been adopted for preparation of a Ni52.5Mn24.5Ga23 (at %) ...
"Phase coexistence phenomena related to direct and reverse martensitic transformation have been stud...
The effect of annealing on melt spun Ni55Mn22Ga23 (at. %) ribbon has been addressed in terms of stru...
The investigation addresses the effect of magnetizing field on the magnetic properties of melt spun ...
Ni$_{49.7}$Mn$_{29.1}$ Ga$_{21.2}$ magnetic shape memory sample showing magnetic-field-induced strai...
In recent years, a lot of investigations have been focused on ferromagnetic shape memory alloys (FSM...
The present study reports on the analysis of the microstructure, martensitic transformation, and the...
The investigation is focussed on the magnetic and structural behaviour in a Ni-rich off-stoichiometr...
Magnetic Shape Memory Alloys exhibit multifunctional properties due the martensitic transformation (...
Magnetic Shape Memory Alloys exhibit multifunctional properties due the martensitic transformation (...
Magnetic Shape Memory Alloys exhibit multifunctional properties due the martensitic transformation (...
Ferromagnetic shape memory alloys emerge as new functional materials which have interesting magnetom...
The present paper deals with the thermal- and stress-induced martensitic transformations, effects of...
Lattice parameters, elastic modulus, internal friction, superelasticity, and shape memory effect are...
Ferromagnetic shape memory alloys (FSMA) have recently attracted much interest and research because ...
solidification route by melt spinning has been adopted for preparation of a Ni52.5Mn24.5Ga23 (at %) ...
"Phase coexistence phenomena related to direct and reverse martensitic transformation have been stud...