Effect of the Ni content on the thermal and magnetic properties of Fe–Ni–Co alloys
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2021xmlui.dri2xhtml.METS-1.0.item-sponsorship
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In this study, the influence of the Ni content on the phase transformations of FeNiCo alloys was evaluated by analyzing seven different alloys with Fe-x%at.Ni-10%at.Co composition, in which x = 30, 24.5, 20, 15, 10, 5, and 0. These alloys were initially annealed and then studied by different experimental techniques. The results showed that the Ni concentration plays an important role in the magnetic transition temperature of the FeNiCo alloys, changing the magnetic and structural transition temperatures and promoting a magnetic hysteresis as high as 500 K. From these results, it was possible to propose a scheme for phase transformation of the Fe-Ni-Co alloys with 10%at.Co and content of nickel lower than 30%at.
- Materials Science and Engineering and Thermodynamics
- Magnetic Materials and Devices
- Physical Metallurgy of Shape Memory Alloys
- Magnetic Materials and Devices
- Magnetostriction in Magnetic Materials
- Materials Science and Engineering and Thermodynamics
- Materials Science and Engineering and Thermodynamics
- General Materials Science
- Materials Science
- Physical Sciences
- Thermal hysteresis
- Hysteresis
- Magnetic shape-memory alloy
- Ferromagnetic Shape Memory Alloys
- Content (measure theory)
- Thermal hysteresis
- Hysteresis
- Magnetic shape-memory alloy
- Ferromagnetic Shape Memory Alloys
- Content (measure theory)
- Materials science
- Nickel
- Thermal hysteresis
- Hysteresis
- Metallurgy
- Magnetic shape-memory alloy
- Phase (matter)
- Transition metal
- Magnetic hysteresis
- Content (measure theory)
- Analytical Chemistry (journal)
- Phase transition
- Condensed matter physics
- Magnetization
- Magnetic field
- Chemistry
- Magnetic domain
- Environmental chemistry
- Physics
- Mathematical analysis
- Biochemistry
- Mathematics
- Organic chemistry
- Quantum mechanics
- Catalysis
- Materials science
- Nickel
- Thermal hysteresis
- Hysteresis
- Magnetic shape-memory alloy
- Metallurgy
- Phase (matter)
- Magnetic hysteresis
- Content (measure theory)
- Analytical Chemistry (journal)
- Condensed matter physics
- Phase transition
- Magnetization
- Magnetic field
- Chemistry
- Magnetic domain
- Mathematical analysis
- Physics
- Mathematics
- Organic chemistry
- Quantum mechanics
- Chromatography
- Acesso Restrito
URI
https://openalex.org/W3117220785https://doi.org/10.1016/j.matchemphys.2020.124215
https://repositorio.maua.br/handle/MAUA/1681
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