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    • 11. 发明授权
    • Austenitic stainless steel sheet having excellent surface quality and
method of producing the same
    • 表面质量优异的奥氏体不锈钢板及其制造方法
    • US5376195A
    • 1994-12-27
    • US167832
    • 1993-12-16
    • Takuji ShindoToshiyuki SuehiroMasanori UedaShinichi TeraokaShuichi Inoue
    • Takuji ShindoToshiyuki SuehiroMasanori UedaShinichi TeraokaShuichi Inoue
    • B21B3/02C21D8/02C22C38/40
    • C21D8/0205B21B3/02
    • This invention relates to a austenitic stainless steel thin sheet devoid of work-surface roughening, produced by a continuous casting method of a strip comprising a composition which contains not greater than 0.09% of C+N and has an Md.sub.30 of 30.degree. to 60.degree. C., and in which colonies A comprising {112} , etc., and colonies B comprising {110} , etc., exist in a uniform mixture in the steel sheet. As to colony dimensions, d.sub.RD (A) and d.sub.RD (B) are not greater than 300 .mu.m and d.sub.TD (A) and d.sub.TD (B) are not greater than 200 .mu.m. Solidification cooling is carried out at a cooling rate of at least 100.degree. C./sec, and cooling is carried out to 1,200.degree. C. at a rate of 50.degree. C./sec after solidification. Cold rolling is effected by twice cold rolling with interposed intermediate annealing. In this way, there can be obtained a austenitic strip cast stainless steel sheet not causing work-surface roughening.
    • PCT No.PCT / JP93 / 00497 Sec。 371日期:1993年12月16日 102(e)日期1993年12月16日PCT提交1993年4月16日PCT公布。 出版物WO93 / 21355 日本特开1993年10月28日。本发明涉及不含工作表面粗糙化的奥氏体不锈钢薄板,其通过连续铸造法制造,该条带包括不超过0.09%的C + N的组合物,并且具有 Md30为30〜60℃,其中包含{112} 111等的菌落A和{110} 111等的菌落B以钢板的均匀混合物形式存在。 对于菌落尺寸,dRD(A)和dRD(B)不大于300μm,dTD(A)和dTD(B)不大于200μm。 固化冷却以至少100℃/秒的冷却速度进行,固化后以50℃/秒的速度进行冷却至1200℃。 冷轧通过两次冷轧进行中间退火。 以这种方式,可以获得不引起工作表面粗糙化的奥氏体带状不锈钢板。
    • 13. 发明申请
    • Cell for Solid Oxide Fuel Cell
    • 固体氧化物燃料电池
    • US20110287341A1
    • 2011-11-24
    • US12989103
    • 2009-04-23
    • Shuichi InoueHidemasa NonakaSatoru Uenoyama
    • Shuichi InoueHidemasa NonakaSatoru Uenoyama
    • H01M4/86
    • H01M8/1206H01M4/9033H01M8/0217H01M8/0228H01M8/0258H01M8/0273H01M8/0297H01M8/1231H01M8/2432H01M8/2457Y02E60/521Y02E60/525
    • [OBJECT] In an SOFC cell comprising a Cr-containing alloy or the like and an air electrode bonded together, the invention is to provide a cell capable of effectively restricting occurrence of Cr poisoning of the air electrode and capable also of effectively restricting occurrence of oxidation deterioration due to Cr depletion in the alloy or the like.[SOLUTION] In a cell for a solid oxide fuel cell (SOFC) comprising a Cr (chrome)-containing alloy or oxide and an air electrode bonded together, wherein on the surface of the alloy or oxide, there is formed a coating layer containing a spinel oxide comprised of a first mono metal oxide and a second mono metal oxide, the first mono metal oxide having an equilibrium dissociated oxygen partial pressure at 750° C. ranging from 1.83×10−20 to 3.44×10−13 atm., the second mono metal oxide having a lower equilibrium dissociated oxygen partial pressure at 750° C. than the first mono metal oxide.
    • [对象]在包含含Cr合金等的SOFC电池和连接在一起的空气电极的本发明中,本发明提供能够有效地限制空气电极的Cr中毒的发生的电池,并且还能够有效地限制 由于合金等中的Cr的消耗而导致的氧化劣化。 [解决方案]在包含Cr(铬)的合金或氧化物的固体氧化物燃料电池(SOFC)和结合在一起的空气电极的电池中,其中在合金或氧化物的表面上形成包含 由第一单金属氧化物和第二单金属氧化物构成的尖晶石氧化物,所述第一单金属氧化物在750℃的平衡解离氧分压为1.83×10-20至3.44×10-13atm。 第二单金属氧化物在750℃下的平衡解离氧分压比第一单金属氧化物低。
    • 14. 发明申请
    • PEDAL ARM, MANUFACTURING APPARATUS THEREOF, AND MANUFACTURING METHOD THEREOF
    • PEDAL ARM,其制造设备及其制造方法
    • US20110252919A1
    • 2011-10-20
    • US13089439
    • 2011-04-19
    • Katsumi NagahoriTohru IzuShuichi InoueTakanori Matsumura
    • Katsumi NagahoriTohru IzuShuichi InoueTakanori Matsumura
    • G05G1/30B21D22/00B23P11/00
    • B60T7/06B21D53/88G05G1/50G05G1/506Y10T29/49826Y10T74/20528Y10T74/20888Y10T74/2168
    • A pedal arm is provided with an arm main body that is a tubular-shaped member formed by bending a plate member having a first end portion and a second end portion, a pedal pad portion provided on the arm main body, and a shaft portion provided on the arm main body. The arm main body includes a first wall portion and a second wall portion facing each other in a first direction, and a third wall portion and a fourth wall portion facing each other in a second direction that is different from the first direction. One of the first wall portion and the second wall portion includes an abutting portion at which the first end portion and the second end portion of the plate member are brought into contact with each other, and the third wall portion and the fourth wall portion correspondingly include a first curved portion and a second curved portion, which are curved in parallel to each other with a same curvature along an extending direction of the arm main body. A first depressed wall portion and a second depressed wall portion are correspondingly formed on the first curved portion and the second curved portion, which are formed in inward convex shapes, respectively, and at least parts of the first depressed wall portion and the second depressed wall portion are brought into contact with each other.
    • 踏板臂设置有臂主体,该臂主体是通过弯曲具有第一端部和第二端部的板构件形成的管状构件,设置在臂主体上的踏板垫部分和设置在臂主体上的轴部 在手臂主体上。 臂主体包括在第一方向上彼此面对的第一壁部分和第二壁部分,以及在与第一方向不同的第二方向上彼此面对的第三壁部分和第四壁部分。 第一壁部和第二壁部中的一个包括彼此接触的第一端部和第二端部彼此接触的抵接部,第三壁部和第四壁部相应地包括 第一弯曲部和第二弯曲部,沿着臂主体的延伸方向以相同的曲率彼此平行地弯曲。 第一凹陷壁部分和第二凹陷壁部分相应地形成在分别形成为内凸形状的第一弯曲部分和第二弯曲部分上,并且第一凹陷壁部分和第二凹陷壁的至少一部分 部分彼此接触。
    • 15. 发明申请
    • Electrical connection component
    • 电气连接部件
    • US20070026710A1
    • 2007-02-01
    • US10571009
    • 2004-09-28
    • Shuichi Inoue
    • Shuichi Inoue
    • H01R13/20
    • G01R1/0735H01R12/52H05K1/118H05K3/325H05K3/365H05K2201/0314H05K2201/10689
    • A second anisotropic electroconductive sheet 1 has a structure in which third elastomer regions 1B, each of which is electroconductive so as to enable current to flow between the front and the back thereof, are formed on an insulating second elastomer sheet 1A. An anisotropic electroconductive sheet 2 has a structure in which first elastomer regions 2B and second elastomer regions 3B, each of which is electroconductive so as to enable current to flow between the front and the back thereof, are formed on an insulating elastomer sheet 2A. The first elastomer regions 2B are arranged so as to match up with the third elastomer regions 1B. Furthermore, wiring patterns 2C are formed on the elastomer sheet 2A for connecting the first elastomer regions 2B and the second elastomer regions 3B. The second anisotropic electroconductive sheet 1 and the anisotropic electroconductive sheet 2 are layered one upon the other such that the third elastomer regions 1B and the first elastomer regions 2B are in contact with each other.
    • 第二各向异性导电片1具有这样的结构,其中,第三弹性体区域1B形成在绝缘的第二弹性体片材1A上,第三弹性体区域1B导电,使得电流能够在其前部和后部之间流动。 导电片2具有这样的结构,其中在绝缘弹性体片材2A上形成有第一弹性体区域2B和第二弹性体区域3B,每个弹性体区域2B和第二弹性体区域3B导电,以便使电流在其前部和后部之间流动。 第一弹性体区域2B布置成与第三弹性体区域1B匹配。此外,在用于连接第一弹性体区域2B和第二弹性体区域3B的弹性体片材2A上形成布线图案2C 第二各向异性导电片1和各向异性导电片2彼此层叠,使得第三弹性体区域1B和第一弹性体reg 离子B 2彼此接触。
    • 18. 发明授权
    • Cell for solid oxide fuel cell
    • 固体氧化物燃料电池用电池
    • US08865373B2
    • 2014-10-21
    • US12989103
    • 2009-04-23
    • Shuichi InoueHidemasa NonakaSatoru Uenoyama
    • Shuichi InoueHidemasa NonakaSatoru Uenoyama
    • H01M4/86H01M8/12H01M4/90H01M8/02
    • H01M8/1206H01M4/9033H01M8/0217H01M8/0228H01M8/0258H01M8/0273H01M8/0297H01M8/1231H01M8/2432H01M8/2457Y02E60/521Y02E60/525
    • [OBJECT] In an SOFC cell comprising a Cr-containing alloy or the like and an air electrode bonded together, the invention is to provide a cell capable of effectively restricting occurrence of Cr poisoning of the air electrode and capable also of effectively restricting occurrence of oxidation deterioration due to Cr depletion in the alloy or the like.[SOLUTION] In a cell for a solid oxide fuel cell (SOFC) comprising a Cr (chrome)-containing alloy or oxide and an air electrode bonded together, wherein on the surface of the alloy or oxide, there is formed a coating layer containing a spinel oxide comprised of a first mono metal oxide and a second mono metal oxide, the first mono metal oxide having an equilibrium dissociated oxygen partial pressure at 750° C. ranging from 1.83×10−20 to 3.44×10−13 atm., the second mono metal oxide having a lower equilibrium dissociated oxygen partial pressure at 750° C. than the first mono metal oxide.
    • [对象]在包含含Cr合金等的SOFC电池和连接在一起的空气电极的本发明中,本发明提供能够有效地限制空气电极的Cr中毒的发生的电池,并且还能够有效地限制 由于合金等中的Cr的消耗而导致的氧化劣化。 [解决方案]在包含Cr(铬)的合金或氧化物的固体氧化物燃料电池(SOFC)和结合在一起的空气电极的电池中,其中在合金或氧化物的表面上形成包含 由第一单金属氧化物和第二单金属氧化物构成的尖晶石氧化物,所述第一单金属氧化物在750℃的平衡解离氧分压为1.83×10-20至3.44×10-13atm。 第二单金属氧化物在750℃下的平衡解离氧分压比第一单金属氧化物低。