摘要 |
<P>PROBLEM TO BE SOLVED: To provide a rare-earth-based nano composite magnet improving rectangularity and containing Ti. <P>SOLUTION: The molten metal of an alloy has a compositional formula of (Fe<SB>1-n</SB>T<SB>n</SB>)<SB>100-x-y-z-l-m</SB>Q<SB>x</SB>R<SB>y</SB>Ti<SB>z</SB>Nb<SB>l</SB>M<SB>m</SB>. In this case, T is an element selected from a group of Co and Ni, Q is an element selected a group of B and C, R is an element selected from a group of yttrium and a rare earth element, and M is an element selected from a group of Al, Si, Mn, Cu, Zn, Ga, Ag, Pt, Au, Pb, V, Ta, W, Mo, and Cr; x, y, z, l, and m are 10≤x≤17, 6≤y≤11, 0.1≤z≤10, 0.1≤l≤6, and 0≤m≤6 atom.%, respectively; and 0≤n≤0.5 is met. The molten metal alloy is cooled and coagulated by a melt spinning method. An iron group rare earth nano composite magnet, which has magnetic characteristics of B<SB>r</SB>≥0.8 T, H<SB>cJ</SB>≥600 KA/m, and H<SB>k</SB>/H<SB>cJ</SB>≥0.35, is manufactured from the rapidly-coagulated alloy. <P>COPYRIGHT: (C)2006,JPO&NCIPI |