Abstract

The effect of Si addition on the glass-forming ability and magnetic properties for the Fe 77 Ga 3 P 12-x C 4 B 4 Si x and Fe 78 Ga 2 P 12-x C 4 B 4 Si x glassy alloys was investigated. For the both alloys, the addition of 2.5 at%Si was found to be effective for the extension of the supercooled liquid region (ΔT x ) defined by the difference between the glass transition (Tg) and crystallization temperature (T x ). The ΔT x value is 28K for the Fe 77 Ga 3 P 12 C 4 B 4 alloy and increases to 48 K for the Fe 77 Ga 3 P 9.5 C 4 B 4 S1 2.5 alloy. The effectiveness of Si addition can be interpreted in the framework of the three component rules for the formation of bulk glassy alloys and the stabilization of supercooled liquid. The three component rules are satisfied at a high degree of level by the addition of Si. The glassy single phase was obtained in the diameter range up to 2.5 mm for the Fe 77 Ga 3 P 9.5 C 4 B 4 Sι 2.5 glassy alloy and 2.0 mm for the Fe 78 Ga 2 P 9.5 C 4 B 4 Sι 2.5 glassy alloy. The glassy alloys exhibited high saturation magnetization (I s ) and good soft magnetic properties, i.e., high is of 1.36 and 1.40T, and low coercive force (H c ) of 4.25 and 3.35 A/m, respectively. The high is and low H c as well as high glass-forming ability of the Fe-based bulk glassy alloys are promising as a new type of soft magnetic bulk alloy.

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