11
MA BAO MIN, BOUNDS CHARLES O, CHANG WEN CHENG, CHEN QUN: NANOCOMPOSITES MAGNETIQUES A BASE DE FER, DELEMENTS DE TERRES RARES, DE BORE ET DE METAL REFRACTAIRE, IRON-RARE EARTH-BORON-REFRACTORY METAL MAGNETIC NANOCOMPOSITES. SANTOKU AMERICA, SANTOKU CORPORATION, GOWLING LAFLEUR HENDERSON, October 13, 2009: CA2340362

Magnetic nanocomposite materials including iron, rare earth elements, boron, refractory metal and, optionally, cobalt are disclosed. Neodymium and lanthanum are preferred rare earth elements. The amounts of Nd, La, B and refractory metal are controlled in order to produce both hard and soft magnetic ...


12
CHEN ZHONG MIN, SMITH BENJAMIN R, MA BAO MIN, HERCHENROEDER JAMES R: MATERIAUX DE TERRES RARES A BASE DE FE TRES EXTINGUIBLES, HIGHLY QUENCHABLE FE-BASED RARE EARTH MATERIALS FOR FERRITE REPLACEMENT. MAGNEQUENCH, MAGNEQUENCH, OSLER HOSKIN & HARCOURT, April 16, 2013: CA2515221

The present invention relates to highly quenchable Fe-based rare earth magnetic materials that are made by rapid solidification process and exhibit good magnetic properties and thermal stability. More specifically, the invention relates to isotropic Nd-Fe-B type magnetic materials made from a rapid ...


13
Narasimhan Kalathur Svl, Ma Bao Min: Alliage daimant permanent, Permanent magnet alloy. Narasimhan Kalathur Svl, Crucible Materials Corporation, Ma Bao Min, RICHES MCKENZIE & HERBERT, August 28, 1990: CA1273231

ABSTRACT OF THE DISCLOSUREA permanent magnet alloy consisting essentially of, inweight percent, 1 to 10 dysprosium, 20 to 37 neodymium, with thetotal dysprosium and neodymium content being within the range of30 to 38, 0.8 to 1.33 boron and balance iron. This alloy ischaracterized by high resistance ...


14
Chandhok Vijay K, Duplessis John J, Krause Robert F, Ma Bao Min: Methode et installation pour fabriquer des aimants permanents extrudes, Method and assembly for producing extruded permanent magnet articles. Chandhok Vijay K, Duplessis John J, Krause Robert F, Ma Bao Min, Crucible Materials Corporation, RICHES MCKENZIE & HERBERT, May 26, 1992: CA1301602

ABSTRACT OF THE DISCLOSUREA method for producing a compacted fully dense permanentmagnet by providing a particle charge of a permanent magnet alloycomposition from which the article is to be made and placing thecharge in a cylindrical container having a generally axiallypositioned core with the char ...


15
Chen Zhongmin, Smith Benjamin R, Ma Bao Min, Herchenroeder James R: Highly quenchable fe-based rare earth materials for ferrite replacement. Magnequench, December 7, 2005: EP1602112-A2

The present invention relates to highly quenchable Fe-based rare earth magnetic materials that are made by rapid solidification process and exhibit good magnetic properties and thermal stability. More specifically, the invention relates to isotropic Nd-Fe-B type magnetic materials made from a rapid ...


16
Chen Zhongmin, Smith Benjamin R, Ma Bao Min: Sigh performance magnetic materials with low flux-aging loss. Magnequench, POISSANT Brian M, May 6, 2004: WO/2004/038739

The present invention relates to magnetic materials made by rapid solidification processes which exhibit high remanence and intrinsic coercivity values and low flux-aging loss. More specifically, the invention relates to isotropic Nd-Fe-B type materials with remanence and intrinsic coercivity values ...


17
Chen Zhongmin, Smith Benjamin R, Ma Bao Min, Herchenroeder James R: Highly quenchable fe-based rare earth materials for ferrite replacement. Magnequench, Chen Zhongmin, Smith Benjamin R, Ma Bao Min, Herchenroeder James R, POISSANT Brian M, August 26, 2004: WO/2004/072311

The present invention relates to highly quenchable Fe-based rare earth magnetic materials that are made by rapid solidification process and exhibit good magnetic properties and thermal stability. More specifically, the invention relates to isotropic Nd-Fe-B type magnetic materials made from a rapid ...


18
Gong Wei, Ma Bao Min: Sm(co, fe, cu, zr, c) compositions and methods of producing same. Santoku America, Gong Wei, Ma Bao Min, VENTURINO Anthony P, May 11, 2000: WO/2000/026926

Carbon addition to the rapidly solidified, preferably melt spun, alloy system of Sm(Co, Fe, Cu, Zr) provides for good isotropic magnetic properties. Importantly, these alloys are nanocomposite in nature and comprise the SmCoC¿2? phase. Thermal processing of these materials can achieve good magnetic ...


19
Ma Bao Min, Bounds Charles O, Chang Wen Cheng, Chen Qun: Iron-rare earth-boron-refractory metal magnetic nanocomposites. Rhodia Rare Earths, Ma Bao Min, Bounds Charles O, Chang Wen Cheng, Chen Qun, CARLETON Katherine L, April 29, 1999: WO/1999/021196

Magnetic nanocomposite materials including iron, rare earth elements, boron, refractory metal and, optionally, cobalt are disclosed. Neodymium and lanthanum are preferred rare earth elements. The amounts of Nd, La, B and refractory metal are controlled in order to produce both hard and soft magnetic ...


20
Perng Tsong P, Ma Bao Min, Landi James, Chen Qun: Ab¿5?-type rare earth transition intermetallic compounds for the negative electrodes of rechargeable batteries. Santoku Corporation, VENTURINO Anthony P, August 3, 2000: WO/2000/044951

Manganese-free rare earth-transition metal AB¿5?-type hydrogen-absorbing alloys having favorable high rate discharge characteristics, suitable for use in rechargeable batteries for electrical vehicles or hybrid electrical vehicles, include compositions of the general formula: R(Co¿u?Al¿v?M¿w?Ni¿l-u- ...



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