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1.发明授权公开(公告)号:US09577247B2
公开(公告)日:2017-02-21
申请号:US14343825
申请日:2012-08-30
Applicant: Daisuke Nishide , Fumiharu Niina , Hiroshi Kawada , Toshikazu Yoshida , Yoshinori Kida
Inventor: Daisuke Nishide , Fumiharu Niina , Hiroshi Kawada , Toshikazu Yoshida , Yoshinori Kida
CPC classification number: H01M4/364 , H01M4/131 , H01M4/505 , H01M4/525 , Y02E60/122
Abstract: A positive electrode active material capable of improving an output performance of a nonaqueous electrolyte secondary battery is provided. A positive electrode active material of a nonaqueous electrolyte secondary battery 1 contains a first positive electrode active material and a second positive electrode active material. In the first positive electrode active material, the content of cobalt is 15% or more on an atomic percent basis in transition metals. In the second positive electrode active material, the content of cobalt is 5% or less on an atomic percent basis in transition metals. An average secondary particle diameter r1 of the first positive electrode active material is smaller than an average secondary particle diameter r2 of the second positive electrode active material.
Abstract translation: 提供能够提高非水电解质二次电池的输出性能的正极活性物质。 非水电解质二次电池1的正极活性物质含有第一正极活性物质和第二正极活性物质。 在第一正极活性物质中,钴的含量在过渡金属中的原子百分比为15%以上。 在第二正极活性物质中,钴的含量在过渡金属中的原子百分比为5%以下。 第一正极活性物质的平均二次粒径r1小于第二正极活性物质的平均二次粒径r2。
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2.发明申请METHOD FOR PRODUCING METAL INGOT, METHOD FOR CONTROLLING LIQUID SURFACE, AND ULTRAFINE COPPER ALLOY WIRE 有权用于生产金属盐的方法,用于控制液面的方法和超细铜合金线公开(公告)号:US20120253498A1
公开(公告)日:2012-10-04
申请号:US13499908
申请日:2011-09-12
Applicant: Shuji Tommatsu , Daisuke Nishide
Inventor: Shuji Tommatsu , Daisuke Nishide
IPC: G05B13/02
CPC classification number: B22D46/00 , B22D11/06 , B22D11/161 , B22D11/185
Abstract: Surface 27 of molten metal within a mold is constantly monitored by camera 25. Camera 25 records the surface from an obliquely upward position of the mold in an area that does not affect the casting process. Various analyzing frames such as analysis band 35, molten metal pattern 37, and injection monitoring part 43, are set with respect to the information recorded by the camera 25. The analysis band 35 includes the surface (molten metal part 31c), and is set to a predetermined width so that the direction of surface change is in the longitudinal direction. The width of the analysis band 35 is set as wide as possible in a range that does not block the discharge part (molten metal part 31a). Inside the analysis band 35, the rate of change of the binary data is calculated by the analyzing part.
Abstract translation: 模具内的熔融金属表面27由照相机25持续监控。相机25将表面从模具的倾斜向上的位置记录在不影响铸造过程的区域中。 关于由照相机25记录的信息,设定分析带35,熔融金属图案37,注射监测部43等各种分析框。分析带35包括表面(熔融金属部31c),并设定 达到预定宽度,使得表面变化的方向在纵向方向上。 在不阻止排出部(熔融金属部31a)的范围内,将分析带35的宽度设定得尽可能宽。 在分析带35内,通过分析部分计算二进制数据的变化率。
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3.发明授权公开(公告)号:US08509942B2
公开(公告)日:2013-08-13
申请号:US13499908
申请日:2011-09-12
Applicant: Shuji Tomimatsu , Daisuke Nishide
Inventor: Shuji Tomimatsu , Daisuke Nishide
CPC classification number: B22D46/00 , B22D11/06 , B22D11/161 , B22D11/185
Abstract: Surface 27 of molten metal within a mold is constantly monitored by camera 25. Camera 25 records the surface from an obliquely upward position of the mold in an area that does not affect the casting process. Various analyzing frames such as analysis band 35, molten metal pattern 37, and injection monitoring part 43, are set with respect to the information recorded by the camera 25. The analysis band 35 includes the surface (molten metal part 31c), and is set to a predetermined width so that the direction of surface change is in the longitudinal direction. The width of the analysis band 35 is set as wide as possible in a range that does not block the discharge part (molten metal part 31a). Inside the analysis band 35, the rate of change of the binary data is calculated by the analyzing part.
Abstract translation: 模具内的熔融金属表面27由照相机25持续监控。相机25将表面从模具的倾斜向上的位置记录在不影响铸造过程的区域中。 关于由照相机25记录的信息,设定分析带35,熔融金属图案37,注射监测部43等各种分析框。分析带35包括表面(熔融金属部31c),并设定 达到预定宽度,使得表面变化的方向在纵向方向上。 在不阻止排出部(熔融金属部31a)的范围内,将分析带35的宽度设定得尽可能宽。 在分析带35内,通过分析部分计算二进制数据的变化率。
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4.发明申请POSITIVE ELECTRODE ACTIVE MATERIAL FOR NONAQUEOUS ELECTROLYTE SECONDARY BATTERY, AND NONAQUEOUS ELECTROLYTE SECONDARY BATTERY 有权非电解电解质二次电池的正极电极活性材料和非电解电解质二次电池公开(公告)号:US20140227599A1
公开(公告)日:2014-08-14
申请号:US14343825
申请日:2012-08-30
Applicant: Daisuke Nishide , Fumiharu Niina , Hiroshi Kawada , Toshikazu Yoshida , Yoshinori Kida
Inventor: Daisuke Nishide , Fumiharu Niina , Hiroshi Kawada , Toshikazu Yoshida , Yoshinori Kida
CPC classification number: H01M4/364 , H01M4/131 , H01M4/505 , H01M4/525 , Y02E60/122
Abstract: A positive electrode active material capable of improving an output performance of a nonaqueous electrolyte secondary battery is provided. A positive electrode active material of a nonaqueous electrolyte secondary battery 1 contains a first positive electrode active material and a second positive electrode active material. In the first positive electrode active material, the content of cobalt is 15% or more on an atomic percent basis in transition metals. In the second positive electrode active material, the content of cobalt is 5% or less on an atomic percent basis in transition metals. An average secondary particle diameter r1 of the first positive electrode active material is smaller than an average secondary particle diameter r2 of the second positive electrode active material.
Abstract translation: 提供能够提高非水电解质二次电池的输出性能的正极活性物质。 非水电解质二次电池1的正极活性物质含有第一正极活性物质和第二正极活性物质。 在第一正极活性物质中,钴的含量在过渡金属中的原子百分比为15%以上。 在第二正极活性物质中,钴的含量在过渡金属中的原子百分比为5%以下。 第一正极活性物质的平均二次粒径r1小于第二正极活性物质的平均二次粒径r2。
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