Soft magnetic properties and wide supercooled liquid region of Fe-P-B-Si base amorphous alloys

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Abstract

The glass transition phenomenon was observed in the temperature range before crystallization for amorphous Fe80(P, B, Si)20 alloys. The temperature interval of the supercooled liquid region (ΔTx) is defined by the difference between glass transition temperature (Tg) and crystallization temperature (Tx) and the largest ΔTx(=Tx-Tg) value is 36 K for Fe80P12B4Si4 where the crystallization reaction takes place through a single stage. The ΔTx value increases by the dissolution of Al and/or Ga and the largest value is 46 K for Fe76Al4P12B4Si4 and 49 K for Fe74Al4Ga2P12B4Si 4. The effectiveness of additional Al and/or Ga elements is interpreted to result from the formation of a higher degree of dense random packed structure by dissolving the Al and Ga elements with larger atomic sizes. These Fe-based amorphous alloys exhibiting the glass transition phenomenon crystallize through a single-stage exothermic reaction due to the precipitation of five crystalline phases α-Fe, Fe3B, Fe2B, Fe3P and FeP. The long-range atomic rearrangement necessary for the nearly simultaneous precipitaion of the five crystalline phases seems to cause the appearance of the supercooled liquid region through the retardation of the precipitation reaction. The Fe-based amorphous alloys exhibit good soft magnetic properties of 1.14 to 1.34 T for saturation magnetization, 1.1 to 6.4 A/m for coercive force and 19000 to 22000 for permeability at 1 kHz in the annealed state for 600 s at 723 K. The synthesis of the Fe-based amorphous alloys exhibiting good soft magnetic properties and a wide supercooled liquid region is important for future development of a new type of soft magnetic material.

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Inoue, A., & Park, R. E. (1996). Soft magnetic properties and wide supercooled liquid region of Fe-P-B-Si base amorphous alloys. Materials Transactions, JIM, 37(11), 1715–1721. https://doi.org/10.2320/matertrans1989.37.1715

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