71
Saito Ken: Dump apparatus. Santoku Aviat Electric, October 16, 1985: GB2156746-A (2 worldwide citation)

A base frame (1) is removably mounted on a rear body (2) of a truck etc., a loading box (4) is rotatably mounted on the base plate, and an inflatable bag (11) provided between the loading box (4) and the base plate and a hose (17) for feeding exhaust gas from an engine into the bag to inflate the sa ...


72
Otsuki Takayuki, Takada Hiroaki, Sakai Tetsuo: Negative electrode active material for lithium ion secondary battery, its manufacturing method, negative electrode for the same, and lithium ion secondary battery. Santoku, National Institute Of Advanced Industrial &Amp Technology, March 11, 2004: JP2004-079463 (2 worldwide citation)

PROBLEM TO BE SOLVED: To provide a negative electrode for a lithium ion secondary battery excellent in initial charge-discharge efficiency, capable of restraining cycle deterioration caused by charge and discharge to realize discharge capacity remarkably exceeding theoretical capacity of a graphite- ...


73
Yamamoto Kazuhiko, Miyake Yuichi, Okada Tsutomu: Powder for rare earth metal-iron-boron anisotropic permanent magnet. Santoku, June 29, 2001: JP2001-176712 (2 worldwide citation)

PROBLEM TO BE SOLVED: To provide powder for rare earth metal-iron-boron anisotropic permanent magnet, which exhibits high anisotropy and has a crystal structure imparting the best influence to the characteristics of a permanent magnet.SOLUTION: An alloy ingot for rare earth metal-iron-boron permanen ...


74
Takamaru Kiyoaki, Ikeda Hideaki, Tatsumi Koji: Hydrogen storage alloy, production method therefor and negative electrode for nickel-hydrogen secondary battery. Santoku, October 9, 2002: JP2002-294373 (2 worldwide citation)

PROBLEM TO BE SOLVED: To provide a hydrogen storage alloy which is useful as the electrode material of a nickel-hydrogen secondary battery, has excellent activity such as initial activity and high rate discharge characteristics or corrosion resistance to the use for the same negative material, is in ...


75
Fujiwara Satoru, Ono Shigeru, Murota Tadatoshi: Positive electrode active material for non-aqueous electrolyte secondary battery, manufacturing method thereof, non-aqueous electrolyte secondary battery and manufacturing method of positive electrode. Santoku, January 17, 2003: JP2003-017050 (2 worldwide citation)

PROBLEM TO BE SOLVED: To provide positive electrode active material for a non-aqueous electrolyte secondary battery capable of improving the load characteristics of the non-aqueous electrolyte secondary battery, improving the capacity, filling efficiency and filling density, and a manufacturing meth ...


76
Onishi Masaya: Positive electrode active material for nonaqueous secondary battery, its manufacture and nonaqueous secondary battery. Santoku, December 19, 2000: JP2000-353524 (2 worldwide citation)

PROBLEM TO BE SOLVED: To restrain the reduction in battery capacity and control the activity of a positive electrode surface to improve the cycle life by introducing a fluoride of rare earth element and/or an acid fluoride of rare earth element to a composite oxide containing lithium, transition met ...


77
Takamaru Kiyoaki, Ikeda Hideaki, Tatsumi Koji: Manufacturing method of negative electrode for secondary cell. Santoku, December 20, 2002: JP2002-367608 (2 worldwide citation)

PROBLEM TO BE SOLVED: To provide a manufacturing method by which, a negative electrode of a secondary cell with excellent recycling property, having initial activity and high discharging property, and erosion resistant property with good balance which are contradictory to each other, can be easily o ...


78
ONIMURA Takuya, TABATA Shinya: 希土類焼結磁石用合金鋳片の製造方法, Procédé pour produire une barre dalliage coulée pour un aimant fritté aux terres rares, Method for producing alloy cast slab for rare earth sintered magnet. Santoku Corporation, ONIMURA Takuya, TABATA Shinya, SAKAI Hajime, January 5, 2012: WO/2012/002531 (2 worldwide citation)

Disclosed are: an alloy cast slab for a rare earth sintered magnet, which has high rare earth component yield between before and after pulverization, while having uniform particle size after pulverization; and a method which is capable of commercially producing the alloy at high energy efficiency. T ...


79
Konishi Kenji, Higuchi Koji, Abe Hiroshi, Tabata Shinya: Raw material alloy for rare earth magnet, production method therefor, and alloy powder for rare earth magnet. Santoku, May 20, 2004: JP2004-143595 (2 worldwide citation)

PROBLEM TO BE SOLVED: To provide a raw material alloy for an R2Fe14B based rare earth magnet which has excellent magnetic properties, to provide the alloy powder, and to provide a production method by which they can efficiently be produced.SOLUTION: The raw material alloy for a rare earth magnet has ...


80
Hirata Koichi, Ogura Akira, Tanaka Moriya, Sakurai Kazuya: Prepared food container. Aiho, Santoku, June 6, 2000: JP2000-153881 (2 worldwide citation)

PROBLEM TO BE SOLVED: To easily confirm such a fact as the ease that a container with prepared food stored has been unsealed before it is used by providing a one-way valve for discharging internal gas on a lid, and providing a reduced pressure indicator where a reduced pressure state of the internal ...