Basic Solid State Chemistry 2nd Ed. West, A.R. John Wiley and Sons, Ltd. Chichester, UK, 2000.
Rod Nave:"Magnetic Properties of Solids" , HyperPhysics. http://hyperphysics.phy-astr.gsu.edu/hbase/Solids/magpr.html
増本量, 渡辺清, 三寺正雄:"Mn-Ga系におけるDO22型合金とその磁気特性について" , 日本金属学会誌, 42(5), pp. 474-479 (1978).
飯田修一:"強磁性酸化物 (主としてフェライト) 研究の進歩" , 電気化学, 26, pp. 11-17 (1957).
D. Kayamori and K. Fujisaki:"Influence of Power Semiconductor On-Voltage on Iron Loss of Inverter-fed" , The 10th IEEE International Conference on Power Electronics and Drive Systems, pp. 840-845 (2013).
藤崎敬介:"パワーエレクトロニクス進展により必要とされる磁性材料の磁気特性" , 電気学会マグネティックス研究会, MAG-13-149, pp. 3-6 (2013).
太田恵造:"磁気工学の基礎Ⅰ" , 共立出版 (1973).
高梨弘毅:"磁気工学入門",共立出版 (2008).
島田寛,福永博俊,八田真一郎,山田興治:"磁性材料" , 講談社サイエンティフィク (1999).
近角聡信:"強磁性体の物理 (上) " , 裳華房 p. 32 (2010).
佐川眞人 編, 浜野正昭, 平林眞:"永久磁石" , アグネ技術センター, (2010).
小澤純夫: "資源問題に直面するモータ用永久磁石の研究動向と課題" , 科学技術動向, 9, pp. 10-21 (2010).
山本洋:"最近の高性能永久磁石とその応用" , 電学誌, 117(3), pp. 159-162 (1997).
木村康夫:"永久磁石材料の歴史" , 鋳造工学, 68(3), pp. 265-274 (1996).
杉本諭:"永久磁石材料の最近の研究" , まてりあ, 56(3), pp. 181-185 (2017).
佐川眞人:"NdFeB磁石の発展" , まてりあ, 40(11), pp. 943-946 (2001).
T. Akiya, J. Liu, H. Sepehri Amin, T. Ohkubo, K. Hioki, A. Hattori, K. Hono: "High-coercivity hot-deformed Nd-Fe-B permanent magnets processed by Nd-Cu eutectic diffusion under expansion constraint" , Scripta Mater., 81(15), pp. 48-51 (2014).
H. Nishio, T. Tayu, H. Ono, M. Shimada and H. Yamamoto:"Anisotropy Distribution of Nd-Fe-B Magnet Powder Prepared by the HDDR Process" , J. Magn. Soc. Jpn., 29(2), pp. 105-110 (2015).
小林久理眞:"永久磁石の磁化反転機構" , まてりあ, 42(5), pp. 405-412 (2003).
G. C. Hadjipanayis and A. M. Gabay:"Overview of the high-Temperature 2:17 Magnets" , Proc. of the 18th Workshop on HPMA, Annecy (France), pp. 590-600 (2004).
A. Singh, V. Neu, S. Fähler, K. Nenkov, L. Schultz, and B. Holzapfel:"Relevance of pinning, nucleation, and interaction in nanograined epitaxial hard magnetic SmCo5 films" , Phys. Rev. B, 79, 214401 (2009).
F. Cebollada, M. F. Rossignol, D. Givord, V. Villas-Boas and J. M. Gonzales : "Angular dependence of coercivity in Nd-Fe-B sintered magnets: Proof that coherent rotation is not involved" , Phys. Rev. B, 52, pp. 13511-13518 (1995).
R. W. Gao, D. H. Zhang, H. Li and J. C. Zhang:"Effects of the degree of grain alignment on the hard magnetic properties of sintered NdFeB magnets" , Appl. Phys. A, 67, pp.353-356 (1998).
D. Givord, M. Rossignol and V. M. T. S. Barthem:"The physics of coercivity " , J. Magn. Magn. Mater., 258, pp.1-5 (2003).
R. Ramesh, G. Thomas and B. M. Ma:"Magnetization reversal in nucleation controlled magnets. II. Effect of grain size and size distribution on intrinsic coercivity of Fe-Nd-B magnets" , J. Appl. Phys., 64, pp. 6416-6423 (1988).
小林久理眞, 斎藤晶子, 中村美香:"Sm2Fe17N3磁石の単磁区粒子と小数の磁区を有する粒子のエネルギー境界について" , 電学論,124(10), pp. 863-868 (2004).
太田恵造:磁気工学の基礎, 共立出版, (1973).
A. Hubert and R. Schafer:"Magnetic Domains" , Springer, (1998).
P. Nothnagel, K. H. Muller, D. Eckert, A. Handstein : "The influence of particle size on the coercivity of sintered NdFeB magnets" , J. Mag. Mag. Mater. 101, pp. 379-381 (1991).
秋屋貴博,日置敬子,服部篤,大久保忠勝,宝野和博:"熱間加工ネオジム磁石における低温共晶合金浸透に伴う膨張現象" , 電気製鋼,86(2), pp. 93-100 (2016).
大川光吉:"フェライト磁石の低温不可逆減磁に関する一考察" , 電気学会論文誌, 93-A(9), pp. 389-396 (1973).
D. A. Oliver, J. W. Shedden:"Cooling of Permanent Magnet Alloys in a Constant Magnetic Field" , Nature, 142, p. 209 (1938).
川口寅之輔, 小川紘一:"最近の永久磁石材料の特性と諸問題" , 電気製鋼, 44(4), pp. 275-285 (1973).
木村康夫:"永久磁石の製造技術" , 日本金属学会会報, 7(11), pp. 680-689 (1968).
D. G. Ebeling and A. A. Burr:"Effects of macrostructure on the performance of Alnico permanent magnets" , J. Metals, 5. pp. 537-544 (1953).
岩間義郎:"スピノーダル分解の理論と応用" , 日本金属学会会報, 12(5), pp. 289-301 (1973).
門間改三, 佐田岳夫:"Alnico系磁石合金の柱状晶の生成に対する帯溶融法の応用" , 日本金属学会誌, 29(1), pp. 1-6 (1965).
F. Kucuk and T. Nakamura:"Torque density and efficiency improvement of a Switched Reluctance Motor via low-cost Permanetnt Magnets" , ICEM 2018, pp. 2318-2322 (2018). DOI: 10.1109/ICELMACH.2018.8507091
J. J. Went, G. W. Rathenau, E. W. Gorter, and G. W. van Oosterhout:"Ferroxdure, A Class of New Permanet Materials" , Phlips Technical Review, 13(7), pp. 194-208 (1952).
A. Cochardt:"Modified Strontium Ferrite, a New Permanent Magnet Material" , J. Apl. Phys., 34, pp. 1273-1274 (1963).
K. Iida, Y. Minachi, K. Masuzawa, M. Kawakami, H. Nishio, and H. Taguchi:"High-Performance Ferrite Magnets: M-Type Sr-Ferrite Containing Lanthanum and Cobalt" , J. Magn. Soc. Japan, 23, pp. 1093-1096 (1999).
緒方安伸, 高見崇, 久保田裕:"La-Co置換フェライト磁石の開発" , 粉末および粉末冶金, 50(8), pp. 636-641 (2003).
小林義徳,細田誠一,尾田悦志,豊田幸夫:"Ca-La-Co系M型フェライトの組成と磁気特性" , 粉体および粉末冶金, 55, pp. 541-546 (2007).
小林義徳, 尾田悦志, 川田常宏, 中川貴:"La-Co置換M型フェライトのマルチスケール解析" , 日立金属技法, 33, pp. 34-41 (2017).
F. K. Lotgering, P. H. G. M. Vromans and M. A. H. Huyberts:"Permanent-Magnet Material Obtained by Sintering the Hexagonal Ferrite W-BaFe18O27" , J Appl. Phys., 51, pp. 5913-5918 (1980).
漁師雄介, 中川貴, 小林義徳, 静野智史, 山本孝夫:"SPS法によるSrZn2W型フェライトの低温焼結とその磁気特性の評価" , J. Jpn. Soc. Powder Powder Metallurgy, 60(3), pp. 121-127 (2013).
日本化学会編,"化学便覧 基礎編 改訂 4版" , 丸善㈱ ,p. 51 (2002).
G. Hoffer and K. J. Strnat:"Magnetocrystalline anisotropy of YCo5 and Y2Co17" , IEEE Trans. Mag., MAG-2, pp.487- 489 (1966).
E. A. Nesbitt, R. H. Willens, R. C. Sherwood, F. Buehler and J. H. Wernick: "NEW PERMANENT MAGNET MATERIALS" , Appl. Phys. Lett. 12, pp. 361-362 (1968).
D. K. Dass:"Twenty million energy product samarium-cobalt magnet" , IEEE Trans. Magn., Mag-5, pp. 214-216 (1969).
H. Senno and Y. Tawara:"Permanent-Magnet Properties of Sm-Ce-Co-Fe-Cu alloys with Compositions between 1-5 and 2-17" , IEEE, Trans. Magn., Mag-10, pp. 313-317 (1974).
Y. Tawara and K. J. Stranat:"Rare earth-cobalt permanent magnets near the 2-17 composition" , IEEE Trans. Magn., MAG-12, pp. 954-958 (1976).
大橋健:"Sm2Co17系磁石の現状と将来展望" , 日本金属学会誌, 76 (1), pp. 96-106 (2012).
T. Ojima, S. Tomizawa, T. Yoneyama and T. Hori:"Magnetic Properties of a New Type of Rare-earth Cobalt Magnets Sm2(Co,Cu,Fe,M)17" , IEEE Trans. Magn. Mag-13, pp. 1317-1319 (1977).
T. Shimoda, K. Kasai and K. Teraishi:"New Resin-Bonded Sm-Co Magnet Having High Energy Product" , 4th Int. Workshop Rare Earth-Cobalt Permaent Magnets and Their Applications, XI-2, pp. 335-345 (1979).
K. S. V. L. Narashimhan:"Low oxygen processing of SmCo5 magnets" , J. Appl. Phys., 52(3), pp. 2512-2514 (1981).
萩原将也, 桜田新哉, 前田貴大:"耐熱モータ用高鉄濃度サマリウムコバルト磁石の製造技術" , 東芝レビュー, 72(2), pp. 45-48 (2017).
H. Sepehri-Amin , J. Thielsch, J. Fischbacher, T. Ohkubo, T. Schrefl, O. Gutfleisch,K. Hono:"Correlation of microchemistry of cell boundary phase and interface structure to the coercivity of Sm(Co0.784Fe0.100Cu0.088Zr0.028)7.19 sintered magnets" , Acta. Mater., 126, pp. 1-10 (2017).
J. D. Livingston and D. L. Martin:"Microstructure of aged (Co,Cu,Fe)7Sm magnets" , J. Appl. Phys., 48, pp. 1350 -1364 (1977).
俵好夫,大橋健:"希土類永久磁石" , 森北出版, (2005).
F. Okabe, H. S. Park, D. Shindo, Y.-G. Park, K. Ohashi, and Y. Tawara:"Microstructures and Magnetic Domain Structures of Sintered Sm(Co0.720Fe0.200Cu0.055Zr0.025)7.5 Permagnetnt Magnet Studied by Transmission Electron Microscopy" , Mater. Tran., 47(1), pp. 218-223 (2006).
S. Okuda, K. Ohashi and N. Kobayashi:"Effects of electron-beam and γ-ray irradiation on the magnetic flux of NdFeB and SmCo permanent magnets" , Nucl. Instr. and Meth., B 94, pp. 227-230 (1994).
Y. Ito, K. Yasuda, R. Ishigami, S. Hatori, O. Okada, K. Ohashi and S. Tanaka:"Magnetic flux loss in rare-earth magnets irradiated with 200 MeV protons" , Nucl. Instr. and Meth. Phys. Res., B 183, pp. 323-328 (2001).
備前輝彦, 北村英男:"挿入光源用永久磁石 (Nd2Fe14B) の放射線減磁について" , The Japanese Society for Synchrotron Radiation Research, 17(2) pp.53-58 (2004).
O.-P. Kahkonen, S. Makinen, M. Talvitie and M. Manninen:"Radiation damage in Nd-Fe-B magnets: temperature and shape effects" , J. Phys. Condens. Matter, 4, pp. 1007-1014 (1992).
T. Bizen, Y. Asano : "RADIATION-INDUCED DEMAGNETIZATION MODEL FOR UNDULATOR MAGNETS" , Proceedings of Particle Accelerator Society Meeting 2009, JAEA, pp. 133-136 (2009).
K. Sakai S. Kuramochi:"Principle and basic characteristics of a hybrid variable-magnetic-force motor" , John Wiley & Sons, Journal of Electrical Engineering in Japan, 183(2), pp. 47-57 (2013).
堺和人:"技術開発レポート: 永久磁石の磁力を可変できたら" , 電気学会論文誌D (産業応用部門誌) , 135(4), p. NL4_4 (2015).
M. Sagawa, S. Fujimura, N. Togawa, H. Yamamoto and Y. Matsuura : "New material for permanent magnets on a base of Nd and Fe" , J. Appl. Phys., 55, pp. 2083-2087 (1984).
M. Sagawa, ,S. Fujimura, H. Yamamoto, and Y. Matsuura : "Nd-Fe-B Permanent Magnet Materials" , Jpn. J. Appl. Phys., 26, pp.785-800 (1987).
M. Sagawa, S. Fujimura, H. Yamamoto, Y. Matsuura and K. Hiraga : "Permanent magnet materials based on the rare earth-iron-boron tetragonal compounds" , IEEE Trans. Magn., MAG-20, pp. 1584-1589 (1984).
宇根康裕,佐川眞人:"結晶微細化によるNd-Fe-B焼結磁石の高保磁力化" , 日本金属学会誌, 76(1), pp. 12-16 (2012).
広沢哲,佐川眞人:"Nd-Fe-B磁石の 発展", 応用物理, 61(3), pp. 234-240 (1992).
J. J. Croat : "Preparation and coercive force of melt-spun Pr-Fe alloys" , Appl. Phys. Lett. 37, 1096-1098 (1980).
J. J. Croat, J. F. Herbst, W. W. Lee and F. E. Pinkerton : "Pr-Fe and Nd-Fe-based materials : A new class of high-performance permanent magnets" , J. Appl. Phys. 55, 2078-2082 (1984).
J. F. Herbst, J. J. Croat, F. E. Pinkerton and W. B. Yelon : "Relationships between crystal structure and magnetic properties in Nd2Fe14B" , Phys. Rev. 29, pp. 4176-4178 (1984).
R. Nakayama, T. Takeshita , M. Itakura, N. Kuwano, and K. Oki:"Magnetic properties and microstructures of the Nd-Fe-B magnet powders produced by hydrogen treatment" , J. Appl. Pys., 70(7), pp. 3770-3774 (1991).
中山亮治,竹下拓夫:"HDDR処理法とNd-Fe-B系異方性磁石粉末に関する研究" , 粉体および粉末冶金, 42(1), pp. 3-10 (1995).
Y. Honkura: "vAutomotive Motor InnovationWith Anisotropic Bonded Magnet-MAGFINE" , Proc. 19th Int. Workshop on Rare Earth Permanent Magnets and Their Application, pp. 231-239 (2006).
C. Mishima, N. Hamada, H. Mitarai and Y. Honkura:"Development of a Co-free NdFeB anisotropic bonded magnet produced from the d-HDDR processed powder " , IEEE Trans. Magn., MAG-37, pp. 2467-2470 (2001).
R. W. Lee:"Hot‐pressed neodymium-iron-boron magnets" , Appl. Phys. Lett. 46, pp. 790-791(1985).
小嶋清司, 井端昭彦,小嶋滋:"押出加工法によるNd-Fe-B磁石の磁気特性と配向性" , 日本応用磁気学会誌, 12, pp. 219-222 (1988).
塩井亮介,宮脇寛,森田敏之:"RE-Fe-B系熱間加工異方性磁石の配向メカニズム", 電気製鋼, 82, pp. 31-37 (2011).
山本和彦, 村上亮:"ストリップキャスト法によるNdFeB系焼結磁石用合金の組織の形成" , 日本金属学会誌, 80(1), pp. 1-6 (2016).
F. Vial, F. Joly, E. Nevalainen, M. Sagawa, H. Hiraga, K.T. Park: "Improvement of corecivity of sintered NdFeB permanent magnets by heat treatment" J. Mag. Mag. Mater, 242-245, pp. 1329-1334 (2002).
Y. Shinba, T. J. Konno, K. Ishikawa, and K. Hiraga, M. Sagawa:"Transmission electron microscopy study on Nd-rich phase and grain boundary structure of Nd-Fe-B sintered magnets" , J. Appl. Phys. 95, 053504 (2005).
T. T. Sasaki, T. Ohkubo, K. Hono, Y. Une, M. Sagawa:"Correlative mult-scale characterization of a fine grained Nd-Fe-B sintered magnet" , Ultramicroscopy, 132, pp. 222-226 (2013).
W. F. Li, T. Ohkubo, K. Hono, M. Sagawa:"The origin of corecivity decrease in fine grained Nd-Fe-B sintered magnets" , J. Mag. Mag. Mater., 321, pp. 1100-1105 (2009).
J. F. Herbst, R. W. Lee and F. E. Pinkerton:"RARE EARTH-IRON-BORON MATERIALS: A New Era in Permanent Magnets" , Ann. Rev. Mater. Sci., 16, pp. 467-485 (1986).
S. Sugimoto : "Effect of the disproportionation and recombination stages of the HDDR process on the inducement of anisotropy in Nd-Fe-B magnets" , J. Alloys. Compd. 862, pp. 293-295 (1999).
三嶋千里,濱田典彦, 御手洗浩成, 本蔵義信:"NdFeB系異方性磁石粉末の磁気特性に及ぼすHDDR法の水素圧力の影響" , J. Magn. Soc. Japan, 24, pp. 407-410 (2000).
O. Gutfleisch, K. Khlopkov, A. Teresiak,K.-H. Muller, G. Drazic, C. Mishima:"Memory of texture during HDDR Processing of NdFeB" , IEEE Trans. Magn., 39 (5), pp. 2926 - 2931 (2003).
森本耕一郎:"Nd-Fe-B系HDDR磁石材料の高性能化と実用化に関する検討" , J. Jpn. Soc. Powder Powder Metallurgy, 52(3), pp. 171-181 (2005).
日置敬子, 服部篤:"超急冷粉末を原料とした省Dy型Nd-Fe-B系熱間加工磁石の開発", SOKEIZAI, 52(8), pp. 19-24 (2011).
K. J. Strnat:"Chapter 2 Rare earth-cobalt permanent magnets in Handbook of Ferromagnetic Materials", North-Holland Publishing, 4, pp. 131-209 (1988).
佐川眞人:"ネオジム磁石のすべて", アグネ技術センター, (2011).
小林久理眞, 漆畑貴美子、宇根康弘、佐川眞人:"Nd-Fe-B系焼結磁石の保磁力発現機構に及ぼす結晶磁気異方性、結晶粒子径、磁区サイズの影響" , 日本金属学会誌, 76(1), pp. 27-35 (2012).
加藤宏朗:"磁石材料における希土類元素の役割", 電気製鋼,73(4), pp. 255-262 (2002).
能勢宏, 佐藤徹哉:"磁気物性の基礎" , 裳華房, (2015).
H. Nishio, H. Taguchi, S. Hasimoto, K. Yajima, A. Fukuno and H. Yamamoto : "A comparison of magnetic anisotropy constants and anisotropy fields of permanent magnets determined by various measuring methods" , J. Phys. D: Appl. Phys., 29(9), pp.2240-2245 (1996).
P. J. Flanders and S. Shtrikman:"Experimental Determination of the Anisotropy Distribution in Ferromagnetic Powders" , J. Appl. Phys., 33, pp. 216-219 (1962).
広沢哲, 槙田顕, 永田浩, 佐川眞人:"Nd2Fe14B型化合物の磁性とNd-Fe-B磁石の特性", 粉体および冶金, 34(9), pp. 474-477 (1987).
M. Sagawa, S. Fujimura, H. Yamamoto, Y. Matsuura and S. Hirosawa : "Magnetic properties of rare‐earth‐iron‐boron permanent magnet materials" , J. Appl. Phys., 57, pp. 4094-4096 (1985).
播本大祐, 松浦裕:"超高性能Nd-Fe-B焼結磁石の開発" , 日立金属技報告, 23, pp. 69-72 (2007).
宝野和博:"Nd-Fe-B磁石の微細構造と保磁力" , 日本金属学会,JIM seminar, 110, pp. 39-50 (2013).
Keisuke Fujisaki(ed):"Magnetic Material for Motor Drive Systems" , Springer Nature, pp. 329-334 (2019).
日置敬子,高野剛次,山本隆弘:"熱間加工磁石の磁気特性に与える加工条件の影響", 電気製鋼, 79(2), pp. 119-125 (2004).
宝野和博, 広沢哲:"元素戦略における永久磁石" , まぐね, 7(6), pp. 1-10 (2012).
広沢哲:"異方性ナノコンポジット磁石の現状と展望" , 日本金属学会誌, 76(1), pp. 81-88 (2012).
H. Kronmuller, K. D. Dust, and G. Martinek : "Angular dependence of coercivity in sintered Fe77Nd15B8 magnets" , J. Magn. Magn. Mater. 69, pp. 149-157, (1987).
H. Sepehri-Amin, T. Ohkubo, T. Shima, and K. Hono:"Grain boundary and interface chemistry of an Nd-Fe-B-based sintered magnet" , Acta Mater., 60, pp.819-830 (2012).
T. Kohasi, K. Motai, T. Nishiuchi and S. Hirosawa: "Magnetism in grain-boundary phase of a NdFeB sintered magnet studied by spin-polarized scanning electron microscopy" , Appl. Phys. Lett., 104, 232408 (2014).
T. Nakamura, A. Yasui, Y. Kotani, T. Fukagawa, T. Nishiuchi, H. Iwai, T. Akiya, T. Ohkubo, Y. Gohda, K. Hono, and S. Hirosawa:"Direct observation of ferromagnetism in grain boundary phase of Nd-Fe-B sintered magnet using soft x-ray magnetic circular dichroism" , Appl. Phys. Lett., 105, 202404 (2014).
F. Akagi and Y. Ishii:"Effects of anisotropy field dispersion and grain boundary on coercivity and squareness ratio for HDDR-processed NdFeB powders" , AIP Advances, 8, 056201 (2018).
H. Kronmuler, K. -D. Dust and M. Sagawa:"Analysis of the magnetic hardening mechanism in RE-FeB permanent magnets" , J. Magn. Magn. Mater., 74, pp. 291-302 (1988).
佐久間昭正,武田茂,遠藤実:"一層欠陥モデルによる永久磁石の保磁力の理論的研究" , 日本応用磁気学会誌17, pp. 672-675 (1993).
H. Fukunaga, T. Fukuda:"Effect of Magnetic Inhomegeneity on Magnetization Reversal in Sintered Nd-Fe-B Magnet" , Jpn. J. Appl. Phys., 29, pp. 1711-1716 (1990).
K. Hirota, H. Nakamura, T. Minowa and M. Honshima:"Coercivity enhancement by the grain boundary diffusion process to Nd-Fe-B sintered magnets" , IEEE Trans. Magn., 42, pp. 2909-2911 (2006).
"Dy拡散技術を用いたNd-Fe-B焼結磁石", 日立金属技報29, p. 57 (2013).
宮田浩二,廣田晃一,中村元,美濃輪武久:"粒界拡散合金法による保磁力分布磁石を用いたSPMモータの減磁評価", 電気学会研究会資料RM, 回転機研究会電気学会研究会資料 RM, 回転機研究会 pp. 91-96, 2008-11-13 (2008).
P. J. McGuiness, X. J. Zhang, X. J. Yin, I. R. Harris:"An effective processing route for Nd-Fe-B-type magnets" , J. Less-Cmmon Met. 158, pp. 359-365 (1990).
N. Hamada, K. Noguchi, C. Mishima and Y. Honkura:"Development of anisotropic bonded magnet applied to 150/spl deg/C use" , IEEE Trans. Magn., MAG-41, pp. 3847-3849 (2005).
H. Sepehri-Amin, T. Ohkubo, T. Nishiuchi, S. Hirosawa and K. Hono:"Coercivity enhancement of hydrogenation-disproportionation-desorption-recombination processed Nd-Fe-B powders by the diffusion of Nd-Cu eutectic alloys" , Scripta Mater., 63, pp. 1124-1127 (2010).
三嶋千里,野口健児,山崎理央,松岡浩,御手洗浩成,本蔵義信:"DyフリーNd-Fe-B系異方性ボンド磁石の開発と小型モータへの応用", 日本金属学会誌, 76, pp. 89-95 (2012).
J. Liu, H. Sepehri-Amin, T. Ohkubo, K. Hioki, A. Hattori, T. Schrefl, K. Hono : "Effect of Nd content on the microstructure and coercivity of hot-deformed Nd-Fe-B permanent magnets" , Acta Mater., 61, pp. 5387-5399 (2013).
H. Sepheri-Amin, T Ohkubo, S Nagashima, M Yano, T Shoji, A Kato, T. Schrefl, K. Hono: "High-coercivity ultrafine-grained anisotropic Nd-Fe-B magnets processed by hot deformation and the Nd-Cu grain boundary diffusion process" , Acta Mater. 61(17), pp. 6622-6634 (2013).
秋屋貴博, 日置敬子,服部篤, H. Sepehri Amin,大久保忠勝,宝野和博:"熱間加工バルクネオジム磁石へのRE-Cu共晶合金の低温拡散プロセス", 電気学会論文誌A, 136(8), pp. 478-483 (2016).
T. Akiya, J. Liu, H. Sepehri-Amin, T. Ohkubo, K. Hioki, A. Hattori, and K. Hono:"Low temperature diffusion process using rare earth-Cu eutectic alloys for hot-deformed Nd-Fe-B bulk magnets" , J. Appl. Phys. 115, 17A766 (2014).
清水治彦,加藤龍太郎,中澤義行,服部篤,日高敬子,及川貴司:"駆動モータ用重希土類フリー熱間加工磁石" , Honda R & D Technical Review, 28(2), pp. 85-89 (2016).
K. Hioki, A. Hattori, and T. Iriyama:"Development of Dy-Free Hot-Deformed Nd-Fe-B Mangets by Optimizing Chemical Composition and Microstructure" , J. Magn. Soc. Jpn., 38, pp. 79-82 (2014).
K. Morimoto, N. Katayama, Hiroshi Akamine, Masaru Itakura:"Coercivity enhancement of anisotropic Dy-free Nd-Fe-B powders by conventional HDDR process" , J. Magn. Magn. Matter., 324, pp. 3723-3726 (2012).
片山信宏, 金子翔平, 重岡都美, 森本耕一郎:"Nd-Fe-B系HDDR粉末の磁気特性に及ぼすPr置換の影響", 第39回日本磁気学会学術講演概要集, 10pA-5, p. 185 (2015).
R. Coehoorn, De Mooij, J. P. w. B. Duchateau, K. H. J. Buschow:"Novel permanent magnetic materials made by rapid quenching" , J. de Phys., C8, pp. 669-670 (1988).
E. F. Kneller and R. Hawig:"The exchange-spring magnet: a new material principle for permanent magnets" , IEEE Trans. Magn. 27, pp. 3588-3600 (1991).
R. Skomski and J. M. D. Coey:"Giant energy product in nanostructured two-phase magnets" , Phys. Rev. B, 48, pp. 15812-15816 (1993).
J. Zhang: "Sm(Co,Cu)5/Fe exchange spring multilayer films with high energy product" , Appl. Phys. Letters, 86, 122509 (2005).
E. C. Stoner and E. P. Wohlfarth:"A Mechanism of Magnetic Hysteresis in Heterogenious Alloys" , Phil. Trans. Roy. Soc., 240A, pp.599-642 (1948).
G. Friedman:"New Formation of the Stoner-Wohlfarth Hysteresis Model and the Identification Problem" , J. Appl. Phys., 67(9), pp. 5361-5363, (1990).
J. C. Slater:"The Ferromagnetism of Nickel" , Phys. Rev., 49, pp. 537-545 (1936).
L. Pauling:"The Nature of the Interatomic Forces in Metals" , Phys. Rev., 54(3), pp. 899-904 (1938).
W. F. Barret, W. Brown, and R. A. J. Hadfield:"On the electrical conductivity and magnetic permeability of various alloys of iron" , Sci. Trans. Roy. Dublin Soc., 17, pp. 67-126 (1900).
K. Honda, S. Kaya, and Y. Masuyama:"On the magnetic properties of single crystal of iron" , Nature, 117, pp. 753-754 (1926).
N. P. Goss:"Electrical sheet and method and apparatus for its manufacture and test" , US Patent 1965559 (1934).
福田方勝:"磁性材料の歴史" , 特殊鋼,63(5), pp. 2-6 (2014).
H. D. Arnold and G. W. Elmen:"Permalloy, an alloy of remarkable magnetic properties" , J. Frank. Inst., 195(5), pp. 621-632 (1923).
G. W. Elmen:"Magnetic material and appliance" , US patent No. 1739752 (1929).
平賀貞太郎:"ソフトフェライト" , 日本金属学会会報, 24(4), pp. 288-297 (1985).
J. L. Snoek:"New Development in Ferromagnetic Materials" , Elsevier Pub. Co., NewYork (1947).
一ノ瀬昇:"フェライト技術の系統化" , 国立科学博物館技術の系統化調査報告書、13, pp. 149-210 (2009).
H. Fujimori, T. Masumoto, Y. Obi, and M. Kikuchi:"On the Magnetization Process in an Iron-Phosphorus-Carbon Amorphous Ferromagnet" , Japan. J. Appl. Phys. 13(11), pp. 1889-1890 (1974).
T. Egami, P. J. Flanders, and C. D. Graham. Jr.:"Low-field magnetic properties of ferromagnetic amorphous alloys" , Appl. Phys. Lett., 26(3), pp. 128-130 (1975).
Y. Yoshizawa, S. Oguma, and K. Yamauchi:"New Fe-based soft magnetic alloys composed of ultrafilne grain structure" , J. Appl. Phys. 64(15), pp. 6044-6046 (1988).
牧野彰宏,井上明久:"Fe-TM (遷移金属) 系ナノ結晶軟磁性材料" , まてりあ,37(6), pp. 479-487 (1998).
K. Fujisaki, N. Haruta, and K. Fujisaki:"Evaluation of Stator Core Iron Loss of Magnetic Anisotropic Motor" , EVTec, Yokohama, 20144081 (2014).
久保田猛:"電磁鋼板", NIPPON STEEL MONTHLY, 5, pp. 9-12 (2005).
髙宮俊人, 古君修:"3%Si鋼中のMnS, MnSeおよびAlNとの複合性析出と粒成長抑制効果" , 鉄と鋼, 100(11), pp. 67-74 (2014).
大村健,早川康之:"Goss方位粒の選択成長性に及ぼす一時再結晶集合組織の影響" , 日本金属学会誌, 75(9), pp. 485-492 (2011).
T. D. Yensen:"The magnetic properties of some iron alloys melted in vacuo" , Trans. of the American Institute of Electrical Engineers, XXXIV(2), pp. 2601-2670 (1915).
Y. Takada, M. Abe, S. Masuda, and J. Inagaki:"Commercial scale production of Fe-6.5 wt% Si sheet and its magnetic properties" , Journal of Applied Physics 64(10), pp. 5367-5369 (1988).
M. Abe, Y. Takada, T. Murakami, Y. Tanaka & Y. Mihara:"Magnetic properties of commercially produced Fe-6.5wt% Si sheet" , Journal of Materials Engineering, 11, pp. 109-116 (1989).
P. AratóI Bóc, T. Gróf:"Effect of composition on the loss of non-oriented medium silicon electric steels" , J. Magn. Magn. Mater., 41(1-3), pp. 53-55 (1984).
C.-K. Hou:"Effect of silicon on the loss separation and permeability of laminated steels" , J. Magn. Magn. Mater., 162 (2), pp. 280-290 (1996).
武本聡:"Fe-Si系圧粉磁心の磁気特性に及ぼすSi量の影響" ,電気製鋼 82(1), pp. 57-65 (2011).
W. J. Carr, Jr. and R. Smoluchowski:"The Magnetostriction of Single Crystals of Iron-Silicon Alloys" , Phys. Rev., 83, pp. 1236-1243 (1951).
M. F. Littmann:"Iron and silicon-iron alloys" , IEEE Trans. Magn., MAG7 (1) , pp. 48-60 (1971).
定廣健一, 後藤聡志, 上ノ薗聡:"JFEスチールグループの軟磁性材料" , JFE技報, 8, pp. 1-6 (2005).
J. Füzer, Z. Birč áková, A. Zelenáková, P. Hrubovč ák, P. Kollár, M. Predmerskŷ, J. Hunady:"Investigation of total losses of non-oriented electrical steels" , Acta Phys. Polonica-Ser. A Gen. Phys., 118 (5), pp. 1018-1019 (2010).
H. Shimanaka, Y. Ito, K. Matsumura, B. Fukuda:"Recent development of non-oriented electrical steel sheets" , J. Magn. Magn. Mater., 26 (1), pp. 57-64 (1982).
M. F. de Campos, J.C. Teixeira, F.J.G. Landgraf:"The optimum grain size for minimizing energy losses in iron" , J. Magn. Magn. Mater., 301 (1), pp. 94-99 (2006).
Y. Inokuti:"Grain oriented silicon steel sheet with ceramic film characterized by ultra-low iron loss" , Vacuum, 47 (6-8), pp. 857-862 (1996).
T. Iuchi, S. Yamaguchi, T. Ichiyama, M. Nakamura, T. Ishimoto, K. Kuroki:"Laser processing for reducing core loss of grain oriented silicon steel" , J. Appl. Phys., 53 (3), pp. 2410-2412 (1982).
G. C. Rauch and R. F. Krause:"Effect of beam dwell time on surface changes during laser scribing" , J. Appl. Phys., 57, pp. 4209-4211 (1985).
高宮俊人, 花澤和浩, 鈴木毅浩:"JFEスチールにおける方向性電磁鋼板の最近の進歩" , JFE技報, 36, pp. 1-5 (2015).
S. Okamoto, N. Denis, Y. Kato, M. Ieki, and K. Fujisaki:"Core Loss Reduction of an Interior Permanent-Magnet Synchronous Motor Using Amorphous Stator Core" , IEEE Trans. on Industry Application, 52(3), pp. 2261-2268 (2016).
若宮正行:"アモルファス磁性材料" , J. Soc. Mat. Sci., Japan, 42(478), pp. 771-779 (1993).
増本健:"アモルファス合金の特性とその応用" , 日本金属学会会報,23(9), pp. 739-749 (1984).
H. Jones:"Splat cooling and metastable phases" , Reports on Progress in Physics, 36(11), pp. 1425- 1497 (1973).
増本健,木村博:"液体より急冷した非晶質鉄合金 (Fe-P-C) の結晶化過程" , 日本金属学会誌, 39(3), pp. 273-280 (1975).
K. Suzuki, A. Makino, N. Kataoka, A. Inoue, and T. Masumoto:"High Saturation Magnetization and Soft Magnetic Properties of bcc Fe-Zr-B and Fe-Zr-B-M(M=Transition Metal) Alloys with NanoScale Grain Size" , Materials Transitions, JIM, 32(1), pp. 93-102 (1991).
太田元基, 吉沢克仁:"高BsFe基ナノ結晶磁性合金の開発" , まてりあ, 48(3), pp. 126-128 (2009).
M. Ohta, Y. Yoshizawa:"Effect of Heating Rate on Soft Magnetic Properties in Nanocrystalline Fe80.5Cu1.5Si4B14 and Fe82Cu1Nb1Si4B12 Alloys" , Applied Physics Express, 2(2), 023005 (2009).
N. Denis, M. Inoue, K. Fujisaki, H. Itabashi, and T. Yano:"[66] Iron Loss Reduction of Permanent Magnet Synchronous Motor by Use of Stator Core Made of Nanocrystalline Magnetic Material" , IEEE Trans. on Magn., 53(11), 8110006 (2017).
N. Nishiyama, K. Tanimoto, and A. Makino:"Outstanding efficiency in energy conversion for electric motors constructed by nanocrystalline soft magnetic alloy "NANOMET" cores" , AIP Advances, 6, 055925 (2016).
K. Hono, K. Hiraga, Q. Wang, A. Inoue, and T. Sakurai:"The Microstructure Evolution of a Fe73.5Si13.5B9Nb3Cu1 Nanocrystalline Soft Magnetic Material" , Acta Metall. Mater. 40(9), pp. 2137-2147 (1992).
T. Gheiratmand, H.R. Madaah Hosseini:"Finemet nanocrystalline soft magnetic alloy: Investigation of glass forming ability, crystallization mechanism, production techniques, magnetic softness and the effect of replacing the main constituents by other elements" , J. Magn. Magn. Mat., 408, pp. 177-192 (2016).
R. Alben, J. J. Becker, and M. C. Chi:"Random anisotropy in amorphous ferromagnets" , J. Appl. Phys., 49, pp. 1653-1658 (1978).
G. Herzer:"Grain structure and magnetism of nanocrystalline ferromagnets" , IEEE Trans. Magn., 25, pp. 3327-3329 (1989).
G. Herzer:"Magnetization process in nanocrystalline ferromagnets" , Materials Science and Engineering, A133, pp. 1-5 (1991).
鈴木清策:"ナノ結晶軟磁性材料におけるランダム異方性モデル" , 日本応用磁気学会誌, 26(4), pp. 165-173 (2002).
G. Herzer:"Soft Magnetic Nanocrystalline Materials" , Scripta Metall. Maer., 33, pp. 1741-1756 (1995).
A. Hernando, M. Vazquez, T. Kulik, and C. Prados:"Analysis of the dependence of spin-spin correlations on the thermal treatment of nanocrystalline materials" , Phys. Rev. B, 51(6), pp. 3581-3586 (1995).
K. Suzuki and J. M. Cadogan:"Random magnetocrystalline anisotropy in two-phase nanocrystalline systems" , Phys. Rev. B, 58(5), pp. 2730-2739 (1998).
A. E. Clark:"High-field magnetization and coercivity of amorphous rare-earth-Fe2 alloys" , Appl. Phys. Lett., 23, pp. 642-644 (1973).
R. Harris, M. Plischke, and M. J. Zuckermann:"New Model for Amorphous Magnetism" , Phys. Rev. Lett., 31, pp. 160-162 (1973).
G. Herzer:"NANOCRYSTALLINE SOFT MAGNETIC ALLOYS" , Handbook of Magnetic Materials, 10, Ch. 3, pp. 415-462 (1997).
Y. G. Guo and J. G. Zhu:"Comparative Study of 3D Flux Electrical Machines with Soft Magnetic Composite Cores" , IEEE Trans. on Industry Appl., 39(6), pp. 1696-1703 (2003).
堀江宏道, 落合久美, 有馬逸男, 森田幹朗:"鉄-シリコン合金粉による磁性複合材料の高周波特性" , 日本金属学会誌, 50(2), pp. 127-132 (1986).
B. Speed and G. W. Elmen:"Magnetic Properties of Compressed Powdered Iron" , Trans. I. I. E. E., 40, pp. 596-609 (1921).
石原千生, 小川哲矢, 中山紀行:"粉末冶金法を用いたリアクトルおよびモータ向け圧粉磁心" , 日立化成テクニカルレポート, 62(12), pp. 15-16 (2019).
上野友之, 鶴田聖, 斎藤達哉, 渡辺麻子, 伊志嶺朝之, 山田浩司:"磁気特性に優れる圧粉磁心の開発経緯と実用化事例及び今後の展開" , SEI テクニカルレビュー, 188(1), pp. 4-9 (2016).
三谷宏幸, 北条啓文, 藤沢和久:"圧粉磁心の強度および磁気特性の向上" , 神戸製鋼技法, 54(1), pp. 39-43 (2004).
渡辺麻子, 斎藤達哉, 上野友之, 鶴田聖, 中村悠一:"圧粉磁心による薄型・高トルクなアキシャルギャップモータの実現" , SEI テクニカルレビュー, 192(1), pp. 119-125 (2018).
Brown, Jr., William Fuller:"Micromagnetics" , Robert E. Krieger Publishing Co., (1963).
L. D. Landau, E. M. Lifshitz:"Theory of the dispersion of magnetic permeability in ferromagnetic bodies" . Phys. Z. Sowietunion, 8, pp. 153-169 (1953).
T. L. Gilbert:"A Phenomenological Theory of Damping in Ferromagnetic Materials" , IEEE Trans. Magn., 40(6), pp. 3443-3449 (2004).
S. Iihama, S. Mizukami, N. Inami, T. Hiratsuka, G. Kim, H. Naganuma, M. Oogane, T. Miyazaki, and Y. Ando : "Observation of Precessional Magnetization Dynamics in L10-FePt Thin Films with Different L10 Order Parameter Values" , Jpn. J. Appl. Pys., 52, 073002 (2013)
N. Fujita, N. Inaba, F. Kirino, S. Igarashi, K. Koike, and H. Kato : "Damping constant of Co/Pt multilayer thin-film media" , J. Magn. Magn. Mater., 320, pp. 3019-3022 (2008).
F. Akagi, Y. Ishii:"Effects of Anisotropy Field Dispersion and Grain Boundary on Coercivity and Squareness Ratio for HDDR-Processed NdFeB Powders" , AIP Advances, 8, 056201 (2018).
F. Akagi, T. Shirai, R. Kariya:"Effects of Anisotropy Field and Easy Axis Dispersions on Squareness Ratio for HDDR-Processed Nd-Fe-B Powders" , DOI: 10.1109/TMAG.2018. 2836149 (2019).
H. Nishio, T. Tayu, H. Ono, M. Shimada and H. Yamamoto:"Anisotropy Distribution of Nd-Fe-B Magnet Powder Prepared by the HDDR Process" , J. Magn. Soc. Jpn., 29(2), pp. 105-110 (2015).
赤城文子:"Issues with Micromagnetic Numerical Simulations of Magnetic Structures of Soft Magnetic Materials for Electric Vehicles" , The 42th Annual Conference on MAGNETICS in Japan Symposium 13pC-1 (2018).
