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|Title:||Evidence of exchange coupling in -MnAlC/FeCo system|
|Authors:||Martínez Sánchez, Hugo|
Zamora Alfonso, Ligia Edith
Trujillo Hernández, Juan Sebastián
Pérez Alcazar, Germán Antonio
Maximum energy product (BH)max
X-ray diffraction (XRD)
Mössbauer spectroscopy (MS)
|Publisher:||Journal of Magnetism and Magnetic Materials|
|Citation:||Martínez Sánchez, H., Zamora Alfonso, L. E., Trujillo Hernandez, J. S., & Pérez Alcázar, G. A. (2019). Evidence of exchange coupling in τ-MnAlC/FeCo system. Journal of Magnetism and Magnetic Materials, 473, 221–227.|
|Abstract:||The -MnAlC/FeCo system has potential to be applied as rare earth-free permanent magnet, due to exchange coupled between hard and soft magnetic phases as alternative for the development of high energy product permanent magnets. In this work the hard-magnetic phase Mn53.3Al45C1.7 (0Hc = 0.37 T of coercive force, Mr = 23.52 Am2/kg of remanent magnetization, Ms = 52.94 Am2/kg of saturation magnetization and (BH)max = 3.89 kJ/m3 of maximum energy product) was mixed with the soft magnetic phase Fe65Co35 (0Hc = 0.007 T and Ms = 221.33 Am2/kg) using a solid-state procedure. The magnetic materials were sintered using different ratios of hard and soft magnetic phases: 95:5, 90:10, 85:15 and 80:20; and different sintering temperatures (300, 400, 500 and 600 °C) in order to improve the magnetic properties. The magnetic exchange coupling between MnAlC and FeCo was proved by the hysteresis loop and its corresponding Thamm-Hesse analysis. The best result was obtained for MnAlC/FeCo (95/5 wt%) sintered at 500 °C during 30 min, for which the magnetic properties were 0Hc = 0.277 T, Ms = 76.43 Am2/kg and (BH)max = 5.57 kJ/m3.|
|Appears in Collections:||Artículos|
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