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compounds as new permanent magnet materials
10.L. Pauling, The Nature of the chemical bond, 3rd ed. (Cornell University Press, 1960).
11.N. Sakuma et al., AIP Advances (to be published).
13.S. Chikazumi, Physics of Ferromagnetism (Oxford Science Publications, 1997), p. 503.
14.H. Kronmüller and M. Fähnle, Micromagnetism and the microstructure of ferromagnetic solids (Cambridge Univ. Press, 2013), p. 176.
17.Handbook of Magnetic Materials Vol. 9, edited by K.H.J. Buschow, H. Fujii, and H. Sun (Elsevier Science, 1995), Chap.3, p. 357.
19.R. Grossinger, X. K. Sun, R. Eibler, K. H. J. Buschow, and H. R. Kirchmayer, J. de Physique 46, C6-221 (1985).
20.S. Hock, Ph.D thesis, Universität Stuttgart (1988).
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We investigated (Sm,Zr)(Fe,Co)11.0-11.5Ti1.0-0.5 compounds as permanent magnet materials. Good magnetic properties were observed in (Sm0.8Zr0.2)(Fe0.75Co0.25)11.5Ti0.5powder containing a limited amount of the α-(Fe, Co) phase, including saturationpolarization (Js) of 1.63 T, an anisotropic field (Ha) of 5.90 MA/m at room temperature, and a Curie temperature (Tc) of about 880 K. Notably, Js and Ha remained above 1.5 T and 3.70 MA/m, respectively, even at 473 K. The high-temperature magnetic properties of (Sm0.8Zr0.2)(Fe0.75Co0.25)11.5Ti0.5 were superior to those of Nd2Fe14B.
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