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@article{Knipling-2010-222516,
	Abstract = {We report on improved high-temperature soft magnetic properties in Fe$_{88−2x}$Co$_x$Ni$_x$Zr$_7$B$_4$Cu$_1$ nanocrystalline alloys. Substituting 5.5 at.\% Co and Ni for Fe enhances the magnetization by 5\% at ambient temperature and by 30\% at 650\textcelsius. The Curie temperature of the residual amorphous is also raised significantly (from 
67\textcelsius\ for $x$ = 0 to 298\textcelsius\ for $x$ = 5.5, resulting in low coercivities ($<$ 30 A m$^{01}$) for Fe$_{77}$Co$_5.5$Ni$_5.5$Zr$_7$B$_4$Cu$_1$ over the	temperature range 50--500\textcelsius. The higher magnetization and Curie temperature as compared with other Fe-based alloys, andsmaller Co content as compared with (Fe,Co)-based alloys, make this alloy attractive as an affordable high-temperature soft magnetic material.},
	Author = {Knipling, K.E. and Daniil, M. and Willard, M. A.},
	Doi = {10.1063/1.3268471},
	Journal = {Applied Physics Letters},
	Number = {22},
	Pages = {222516},
	Title = {Fe-Based Nanocrystalline Soft Magnetic Alloys for High-Temperature Applications},
	Volume = {95},
	Year = {2009},
	Bdsk-Url-1 = {http://dx.doi.org/10.1063/1.3268471}}