Abstract
Microstructural and magnetic properties of the X2YZ, namely Fe2MnSi and Fe2MnAl, Heusler alloys have been studied from the viewpoint of technology for their production and for the Z element effect. First, arc melting was applied to produce button-type ingots from which samples in a form of 500 µm thick discs were cut. Second, planar flow casting technology yielded samples in a ribbon-form 2 mm wide and 20 μm thick. The checked area chemical compositions were in agreement with the nominal ones. Nevertheless, the darker square objects and smaller bright objects observed at the wheel side of the Fe2MnSi ribbon sample yielded higher Mn content at the expense of Fe. The X-ray diffraction patterns of all samples have indicated L21 structure with lattice parameters, 0.567 (1) nm for Fe2MnSi and 0.584 (1) nm for Fe2MnAl, being within an experimental error independent of production technology. On the other hand, the technology has markedly influenced the microstructure clearly pointing to the larger size of grains and grain boundaries in the disc samples. From the magnetic viewpoint, both alloys are paramagnetic at room temperature without visible influence of their production. On the contrary, the low-temperature behavior of the microscopic hyperfine parameters and the macroscopic magnetic parameters exhibits differences affected by both chemical composition and microstructure.
Highlights
The Heusler compounds of general chemical formula XYZ or X2 YZ have since the discovery by F
The energy dispersive X-ray (EDX) chemical analysis taken from an area of about (1 × 1) mm2 resulted in good agreement with nominal composition mainly at the arc melting (AM) disc samples (DS, DA) where the homogeneity of the chemical composition was satisfactory
Different chemical compositions between the wheel and air sides were found at ribbon samples (RS, RA)
Summary
The Heusler compounds of general chemical formula XYZ (half-Heusler) or X2 YZ (full-Heusler) have since the discovery by F. Y are transition metals and Z is in the p-block consisting of five columns 13–17. Many of these compounds exhibit properties relevant to spintronics, such as magnetoresistance, variations of the. Ferro-, antiferro-, and ferrimagnetism, half- and semimetallicity, and topological band structure. Their magnetism results from a double-exchange mechanism between neighboring magnetic ions. A chemical element present in the first Heusler alloy and being frequently used in the compositions is manganese. It is used, e.g., in the ferromagnetic shape memory Heusler materials [1]
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