R. Y. Gaifullin scite author profile

The paper shows the effect of homogenization annealing on the ferromagnet-paramagnet phase transition in the GdNi2 alloy. In the cast sample, at the Curie point, a temperature hysteresis is observed, which in an external magnetic field of 13.5 T can be at least 3 degrees. The data of scanning electron microscopy of the electropolished samples showed a decrease in the impurity phase of GdNi and practically no temperature hysteresis of the phase transition in the annealed GdNi2 sample. The value of the isothermal change entropy Delta Sm=-18.931 J/(kg·K) for an annealed sample of the GdNi2 alloy at the Curie point of 75 K in a magnetic field of 13.5 T. Keywords: magnetocaloric effect, GdNi2, Laves phases.

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Influence of Multi-Axial Isothermal Forging on the Stability of Martensitic Transformation in a Heusler Ni-Mn-Ga Alloy

Musabirov

Safarov

Galeyev

et al. 2021

Trans Indian Inst Met

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The Heusler alloys demonstrate magnetically induced strain and magnetocaloric properties, but the mechanical properties are poor. Therefore, in this work, the influence of thermomechanical treatment on the properties of Ni-Mn-Ga-Si Heusler alloys is considered. The effect of multi-axial isothermal forging on functional properties of the Ni 2.30 Mn 0.73 Ga 0.90 Si 0.07 alloy at 973 K and true strain (e) of 3.9 is presented. It is shown that a unique two-phase microstructure is formed as a result of forging. The large grains in the size range of 100-200 lm are surrounded by a fine-grained structure. The study of the thermomechanical properties by the three-point bend test has shown that the alloy demonstrates a single-stage reversible deformation of 3.1% at a constant stress of 860 MPa as compared to the same alloy in the as-cast condition which shows 2% at 380 MPa. The specimen demonstrates a reversible deformation of 5% without any degradation during thermal cycling (with a base of up to 4000 thermal cycles) under a stress of 550 MPa and up to 5% with degradation occurring at 700 thermal cycles under a stress of 650 MPa. Thus, forging makes it possible to obtain a material with higher operational properties and greater resistance to fracture during multiple cycles of martensitic transformation. In this case, it is possible to obtain anisotropy of properties equal or close to that of the specimen in the as-cast state.

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Magnetocaloric effect in Ni-Mn-Ga-Si alloy subjected to plastic deformation by the multiple isothermal forging

Musabirov

Safarov

Galeyev

et al. 2021

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Effect of treatment by isothermal forging on martensitic transformationin the Ni-Mn-Ga Heusler alloys

Musabirov

Safarov

Galeyev

et al. 2020

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R. Y. Gaifullin

Magnetocaloric Effect in a Ni2.25Mn0.75Ga0.93Si0.07 Alloy

Homogenization annealing and magnetic properties of a sample of the Laves phase GdNi-=SUB=-2-=/SUB=-

Influence of Multi-Axial Isothermal Forging on the Stability of Martensitic Transformation in a Heusler Ni-Mn-Ga Alloy

Magnetocaloric effect in Ni-Mn-Ga-Si alloy subjected to plastic deformation by the multiple isothermal forging

Effect of treatment by isothermal forging on martensitic transformationin the Ni-Mn-Ga Heusler alloys

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