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    • 93. 发明申请
    • PLASMA PROCESSING APPARATUS AND PLASMA PROCESSING METHOD
    • 等离子体加工设备和等离子体处理方法
    • US20120067845A1
    • 2012-03-22
    • US13233082
    • 2011-09-15
    • Taichi MondenJunichi KitagawaJun YamashitaHideo Nakamura
    • Taichi MondenJunichi KitagawaJun YamashitaHideo Nakamura
    • H01L21/3065H01L21/306
    • H01J37/32192
    • There is provided a plasma processing apparatus capable of stably generating plasma by suppressing oscillation of a plasma potential, and capable of preventing contamination caused by sputtering a facing electrode made of metal. A high frequency bias power is applied to an electrode within a mounting table for mounting a target object thereon. An extended protrusion 60 is formed at an inner peripheral surface of a cover member 27. The extended protrusion 60 is formed toward a plasma generation space S and serves as a facing electrode facing an electrode 7 within a mounting table 5 with the plasma generation space S therebetween. A ratio of a surface area of the facing electrode with respect to that of an electrode for bias (facing electrode surface area/bias electrode area) is in a range of from about 1 to about 5.
    • 提供了一种能够通过抑制等离子体电位的振荡来稳定地产生等离子体的等离子体处理装置,并且能够防止溅射由金属制成的面对电极引起的污染。 将高频偏置功率施加到用于在其上安装目标物体的安装台内的电极。 在盖构件27的内周面形成有延伸突起60.延伸突起60朝向等离子体产生空间S形成,并且用作与安装台5内的电极7对置的面对电极,其中等离子体产生空间S 之间。 面对电极的表面积相对于用于偏置的电极(面对电极表面积/偏置电极面积)的表面积的比率在约1至约5的范围内。
    • 97. 发明授权
    • Method of manufacturing cylindrical body, and friction stir welding method
    • 制造圆柱体的方法和摩擦搅拌焊接方法
    • US07815094B2
    • 2010-10-19
    • US10537180
    • 2003-12-05
    • Shunsuke SunaharaHaruo MachidaYuu IgarashiTadashi GotoToshimasa KoshimizuHideo NakamuraSatoru MoritaTaisei WakisakaKei Kuriyama
    • Shunsuke SunaharaHaruo MachidaYuu IgarashiTadashi GotoToshimasa KoshimizuHideo NakamuraSatoru MoritaTaisei WakisakaKei Kuriyama
    • B23K20/12
    • B23K20/126B23K20/124B23K2101/06
    • A method of manufacturing a cylindrical body, comprising the step of forming the cylindrical body by bending a plate-like work having first projected finger to fourth projected finger at four corned parts and allowing the end faces thereof to abut on each other, wherein the main surface of the cylindrical body on the side where sags are present is formed in an outer peripheral wall surface and the rear surface thereof on the side where the burrs are present is formed in an inner peripheral wall surface, and a first projected part is formed of the first projected finger and the third projected finger and a second projected part is formed of the second projected finger and the fourth projected finger. After the cylindrical body is held by friction stir welding devices, the probe of a friction stir welding tool is buried from the direction of either of the first projected part and the second projected part, and scanned in the direction of the other of the second projected part and the first projected part. The probe is buried and scanned in the state of being displaced to an advancing side.
    • 一种制造圆筒体的方法,包括以下步骤:通过将具有第一伸出的手指的板状工件弯曲成四个突出的指状物并使其端面相互抵靠而形成圆柱体,其中主体 在外周壁面上形成圆筒体的存在下垂侧的表面,并且在内周壁面上形成有位于毛边存在侧的后表面,第一突出部由 第一投影手指和第三投影手指以及第二投影部分由第二投射手指和第四投射指形成。 在通过摩擦搅拌焊接装置保持圆筒体之后,摩擦搅拌焊接工具的探针从第一突出部分和第二突出部分中的任一个的方向被掩埋,并且沿着第二突出部分和第二突出部分中的另一个的方向被扫描 部分和第一个投影部分。 探头被置于扫描状态下被移动到前进侧。
    • 99. 发明申请
    • ADIABATIC SOUND ABSORBER WITH HIGH THERMOSTABILITY
    • 具有高热稳定性的ADIABATIC SOUND ABSORBER
    • US20090252943A1
    • 2009-10-08
    • US12310056
    • 2007-02-23
    • Masaaki TakedaHideo Nakamura
    • Masaaki TakedaHideo Nakamura
    • B32B27/02
    • D04H1/4382D04H1/4209
    • Provided is a flexible adiabatic sound absorber with high thermal insulation performance and acoustic performance, particularly an adiabatic sound absorbing material that is suitable for a new severe requirement specification regarding aircrafts. The adiabatic sound absorber comprises mixing uniformly 20 to 80% of a high-thermostable inorganic fiber whose high-temperature strength is maintained at 1000° C. or more, 10 to 60% of a flame-retarded organic fiber whose thermal melting or decomposition temperature is 350° C. or more and 10 to 25% of an organic fiber having a low melting point and treating the obtained woolly felt with heating to transform the whole into the mat-form material of 8 to 50 mm in thickness.
    • 提供了具有高绝热性能和声学性能的柔性绝热吸声器,特别是适用于关于飞机的新的严格要求规格的绝热吸声材料。 绝热吸声器包括将高温强度保持在1000℃以上的高温高分子无机纤维20〜80%混合,加热熔融或分解温度为10〜60%的阻燃有机纤维 为350℃以上10〜25%的低熔点有机纤维,加热处理得到的羊毛毡,将其整体转换成厚度为8〜50毫米的垫状材料。
    • 100. 发明授权
    • Device and method for estimating the inputtable/outputtable power of a secondary battery
    • 用于估计二次电池的输入/输出功率的装置和方法
    • US07564221B2
    • 2009-07-21
    • US11605597
    • 2006-11-28
    • Hisafumi AsaiHideaki YonezawaHideo Nakamura
    • Hisafumi AsaiHideaki YonezawaHideo Nakamura
    • H01M10/46
    • G01R31/3651G01R31/3662
    • An inputtable/outputtable power estimating device and method that can correctly estimate maximum inputtable and/or outputtable power of a secondary battery that can continue for a prescribed period of time. When the secondary battery is continuously charged or discharged for a prescribed period of time, the estimated value of a maximum possible charge and/or discharge current is estimated such that the terminal voltage of the secondary battery reaches a predetermined upper limit voltage or lower limit voltage. The inputtable and/or outputtable power is estimated as the power that can be used to charge the secondary battery or be discharged from it on the basis of the estimated maximum possible current(s) and the respective upper limit voltage or lower limit voltage.
    • 一种输入/输出功率估计装置和方法,其能够正确地估计能够持续规定时间段的二次电池的最大可输入和/或可输出功率。 当二次电池连续充电或放电达规定时间时,估计最大可能的充电和/或放电电流的估计值使得二次电池的端电压达到预定的上限电压或下限电压 。 根据估计的最大可能电流和相应的上限电压或下限电压,可以将输入和/或可输出功率估计为可用于对二次电池充电或从其中放电的功率。