Influence of temperature on rearrangement of martensite variants by magnetic field in Fe3Pt

We have examined the condition for the rearrangement of martensite variants (RMV) by magnetic field in a wide temperature range for three types of Ni-Mn-Ga ferromagnetic shape memory alloys: a Ni 2 MnGa with the 10M martensite, a Ni 2.02 Mn 1.09 Ga 0.89 (at.%) with the 14M martensite and a Ni 2.14 M

## Abstract Glass‐coated Cu~56~Ga~27~Mn~17~ magnetic microwires, resulting from thermal annealing at 523 K for 1 h, have been structural and magnetically characterized. The crystalline structure shows the coexistence of four crystalline phases: a hexagonal phase with __a__ = __b__ = 0.4536 nm and _

A large field-induced strain of magnetic shape memory alloy is developed by the martensite variant reorientation. It is widely recognized that the martensite reorientation in a magnetic shape memory alloy (MSMA) can develop if the magnetic field is large enough. However, it has been shown in the lit