@article{oai:nagasaki-u.repo.nii.ac.jp:00013385,
 author = {Yamashita, F. and Nishimura, S. and Kobayashi, O. and Itoh, M. and Nakano, Masaki and Fukunaga, Hirotoshi and Ishiyama, K.},
 issue = {7},
 journal = {Journal of Applied Physics},
 month = {Apr},
 note = {An advanced preparation method was carried out to obtain a magnetized cylindrical micro rotorfabricated from directly consolidated isotropic -Fe/Pr2Fe14B nanocomposite thick-films with self-bonding layer. A magnetic torque of the above film with the remanence value of 0.97 T, the coercivity value of 650 kA/m, and the (BH)max value of 142 kJ/m3 was investigated under different field strengths. Namely, magnetic torque of the above-mentioned rotor with a single pole pairincreased by 117, compared with that of Fe3B/Nd2Fe14B films with the remanence value of 1.1 T, the coercivity value of 334 kA/m, and the (BH)max value of 95 kJ/m3. It was found that the use of -Fe/Pr2Fe14B films is effective in obtaining a multipolarly magnetized micro rotor with highly dense torque as well as magnetic stability., Journal of Applied Physics, 109(7), 07A712; 2011},
 title = {Enhancement in magnetic torque of cylindrical micro rotor by usage of directly consolidated α-Fe/Pr2Fe14B-based nanocomposite thick-films},
 volume = {109},
 year = {2011}
}