1
Ryo Murakami, Hirokazu Kanekiyo, Satoshi Hirosawa: Process for producing, through strip casting, raw alloy for nanocomposite type permanent magnet. Santoku Corporation, Neomax, Keating & Bennett, February 28, 2006: US07004228 (8 worldwide citation)

To make a raw alloy, consisting mostly of amorphous structure, highly productively and at a reduced cost for a nanocomposite magnet, a molten alloy represented by Fe100-x-y-zRxQyMz (where R is at least one element selected from Pr, Nd, Dy and Tb; Q is B and/or C; M is at least one element selected f ...


2
Ryo Murakami, Hirokazu Kanekiyo, Satoshi Hirosawa: Process for producing, through strip casting, raw alloy for nanocomposite type permanent magnet. Hitachi Metals, Keating & Bennett, June 16, 2009: US07547365 (3 worldwide citation)

To make a raw alloy, consisting mostly of amorphous structure, highly productively and at a reduced cost for a nanocomposite magnet, a molten alloy represented by Fe100-x-y-zRxQyMz (where R is at least one element selected from Pr, Nd, Dy and Tb; Q is B and/or C; M is at least one element selected f ...


3
Murakami Ryo, Kanekiyo Hirokazu, Hirosawa Satoshi: Process for producing, through strip casting, raw alloy for nanocomposite type permanent magnet. Santoku, Sumitomo Spec Metals, August 27, 2003: EP1338359-A1 (3 worldwide citation)

To make a raw alloy, consisting mostly of amorphous structure, highly productively and at a reduced cost for a nanocomposite magnet, a molten alloy represented by Fe100-x-y-zRxQyMz (where R is at least one element selected from Pr, Nd, Dy and Tb; Q is B and/or C; M is at least one element selected f ...


4
Murakami Ryo, Kanekiyo Hirokazu, Hirosawa Satoshi: Process for producing, through strip casting, raw alloy for nanocomposite type permanent magnet. Santoku, long chun, September 3, 2003: CN01812176 (1 worldwide citation)

In order to make a raw alloy, consisting mostly of amorphous structure, highly productively and at a reduced cost for a nanocomposite magnet, a molten alloy represented by Fe100-x-y-zRxQyMz (where R is at least one or two element selected from Pr, Nd, Dy and Tb; Q is B and/or C; M is at least one or ...


5
Ryo Murakami, Hirokazu Kanekiyo, Satoshi Hirosawa: Process for producing, through strip casting, raw alloy for nanocomposite type permanent magnet. Joseph R Keating, Keating & Bennett, October 2, 2003: US20030183305-A1

To make a raw alloy, consisting mostly of amorphous structure, highly productively and at a reduced cost for a nanocomposite magnet, a molten alloy represented by Fe100-x-y-zRxQyMz (where R is at least one element selected from Pr, Nd, Dy and Tb; Q is B and/or C; M is at least one element selected f ...


6
Ryo Murakami, Hirokazu Kanekiyo, Satoshi Hirosawa: Process for producing, through strip casting, raw alloy for nanocomposite type permanent magnet. Neomax, C O Keating & Bennett, April 20, 2006: US20060081308-A1

To make a raw alloy, consisting mostly of amorphous structure, highly productively and at a reduced cost for a nanocomposite magnet, a molten alloy represented by Fe100-x-y-zRxQyMz (where R is at least one element selected from Pr, Nd, Dy and Tb; Q is B and/or C; M is at least one element selected f ...


7
Murakami Ryo, Kanekiyo Hirokazu, Hirosawa Satoshi: Process for producing, through strip casting, raw alloy for nanocomposite type permanent magnet. Santoku Corporation, Sumitomo Special Metals, Murakami Ryo, Kanekiyo Hirokazu, Hirosawa Satoshi, OKUDA Seiji, April 18, 2002: WO/2002/030595

A process for efficiently producing at low cost a raw alloy for nanocomposite magnets which is mainly amorphous. The process comprises preparing a molten alloy represented by Fe¿100-x-y-z?R¿x?Q¿y?M¿z? (wherein R is at least one of praseodymium, neodymium, dysprosium, and terbium; Q is at least one o ...