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Article Dans Une Revue Advanced Powder Technology Année : 2015

Phase transformations and magnetic properties of ball-milled Fe–6P–1.7C powders

Résumé

Nanocrystalline Fe–6P–1.7C powders were prepared by mechanical alloying from elemental Fe, P and C powders in a high energy planetary ball-mill P7 under argon atmosphere. Phase transformations, morphological changes, thermal stability, magnetic properties and microhardness evolution were studied by X-ray diffraction, scanning electron microscope, differential scanning calorimetry, vibrating sample magnetometer and Vickers microhardness. The Rietveld refinement of the X-ray diffraction pattern reveals the formation of disordered Fe(P) and Fe(C) solid solutions and Fe2P phosphide after 9 h of milling. On further milling (50 h), Fe3P, Fe3C and Fe(P, C) phases are formed when the total mixing of the elemental powders is achieved at the atomic level. The crystallite size reduction down the nanometer scale (∼9 nm) is accompanied by the introduction of internal strains up to 1.8% (root-mean square strain, rms). The mixing kinetics of the elemental powders can be described by an Avrami parameter n = 1.5. The saturation magnetization and coercivity values are of about 157.3 emu/g and 80 Oe, respectively, after 24 h of milling.
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Dates et versions

hal-02269441 , version 1 (22-08-2019)

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L. Dekhil, S. Alleg, M. Bououdina, J.J. Suñol, Jean-Marc Greneche. Phase transformations and magnetic properties of ball-milled Fe–6P–1.7C powders. Advanced Powder Technology, 2015, 26 (2), pp.519-526. ⟨10.1016/j.apt.2014.12.011⟩. ⟨hal-02269441⟩
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