Title :
New FeNbB-based bulk amorphous and nanocomposite soft magnetic alloys
Author :
Chiriac, Horia ; Lupu, Nicoleta
Author_Institution :
Nat. Inst. of Res. & Dev. for Tech. Phys., Iasi, Romania
Abstract :
This paper deals with results on preparation and magnetic characterization over a wide frequency range of (Fe,Co,Ni)70Nb10B20 new bulk amorphous and nanocomposite alloys. Their structure is either fully amorphous or consisting of very fine 5-10 nm α-Fe(Co) particles dispersed within the amorphous matrix. Saturation inductions of about 0.85 T, relative permeabilities of 7×104 (at 80 Hz), and coercive fields of 40 A/m are determined for new Fe-Nb-B-based bulk amorphous torroids, whereas in nanocomposite cast bars, Hc varies between 180 and 360 A/m in the as-cast state and decreases by about half when the refined nanocrystalline structure is achieved. In the frequency range 50 Hz to 2 kHz, magnetic permeability decreases from 7×104 to 0.5×104. The potential impact of these materials on engineering applications is presented in connection with their specific magnetic behavior and casting ability.
Keywords :
amorphous magnetic materials; iron alloys; magnetic particles; magnetic permeability; nanocomposites; niobium alloys; soft magnetic materials; FeNbB; bulk amorphous magnetic material; bulk amorphous torroid; bulk magnetic nanocomposite; coercive field; magnetic characterization; magnetic permeability; nanocomposite alloy; nanocomposite cast bar; nanocomposite soft magnetic alloy; nanocrystalline structure; saturation induction; soft magnetic material; wide frequency range; Amorphous magnetic materials; Amorphous materials; Bars; Frequency; Magnetic materials; Nanostructures; Niobium alloys; Permeability; Saturation magnetization; Soft magnetic materials; Bulk amorphous magnetic materials; bulk magnetic nanocomposites; properties-related applications; soft magnetic materials;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2005.854721
