Mechanical alloying was employed to synthesize a nanostructured alloy with the chemical formula of (Fe80Ni20)1-xCrx (x= 0, 4). The microstructural and magnetic properties of the samples were investigated using scanning electron microscopy (SEM), X-ray diffraction (XRD), energy dispersive X-ray spectroscopy (EDS), and a vibrating sample magnetometer (VSM). Additionally, theoretical calculations were performed using density functional theory (DFT) under the generalized gradient approximation (GGA). Simulations have demonstrated that an appropriate quantity of chromium (Cr) can dissolve within the BCC-Fe (Ni) structure, resulting in a favorable enhancement of the magnetic moment of the lattice. The XRD results indicated that after 96 hours of milling, Fe (Ni) and Fe (Ni, Cr) with a body-centered cubic (BCC) structure were formed. With increasing milling time, the grain size decreased while the microstrain increased. The saturation magnetization (Ms) of Fe80Ni20 composition increased up to 32 hours of milling, but further milling (up to 96 h) resulted in a decrease in the saturation magnetization However, for the (Fe80Ni20)96Cr4 powders, milling up to 64 h caused a reduction in Ms. The coercivity (Hc) trend was different and increased with longer milling times (up to 96 h) for both compositions.
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Highlights:
In this research Ternary (Fe80Ni20)1-xCrx nanostructured alloys, where (x= 0, 4) at %, were prepared by the
mechanical alloying. Theoretical simulations (DFT) are using to determine magnetic and structural stability
of compositions with various amount of Cr addition.
• Interestingly, our theoretical simulations research proofed that addition low percentage of
antiferromagnetic chromium enhances magnetic properties of Fe(Ni) composition. But high
percentage of antiferromagnetic element caused to reduce the saturation magnetization which is
not desirable for soft-magnetic alloys.
• Mechanical alloying of Fe-Ni with low percentage of Cr caused to decreasing the crystallite size
to about 10nm.
• A considerable enhancing in magnetic properties was achieved by adding 4% Cr to Fe-Ni alloy.