Leaf spring with high vickers hardness
    1.
    发明授权
    Leaf spring with high vickers hardness 有权
    板簧具有很高的维氏硬度

    公开(公告)号:US08503119B2

    公开(公告)日:2013-08-06

    申请号:US13031745

    申请日:2011-02-22

    IPC分类号: G02B7/02

    CPC分类号: F16F1/027

    摘要: A leaf spring supports a pillar shaped movable portion disposed in a center portion with respect to a cylindrical fixed portion disposed around the movable portion in the direction of a center axis shiftably so as to position the movable portion in a radial direction. The leaf spring is made of a material having Vickers hardness which is not less than 500 (HV).

    摘要翻译: 板簧支撑相对于可移动部分设置在可移动部分周围的圆柱形固定部分的中心部分的可移动的支柱形可动部分,以便可移动部分沿径向定位。 板簧由维氏硬度不低于500(HV)的材料制成。

    LEAF SPRING WITH HIGH THRUST
    2.
    发明申请

    公开(公告)号:US20110205647A1

    公开(公告)日:2011-08-25

    申请号:US13031764

    申请日:2011-02-22

    IPC分类号: G02B7/04 F16F1/18

    CPC分类号: F16F1/027 F16F1/021

    摘要: A leaf spring supports a pillar shaped movable portion disposed in a center portion with respect to a cylindrical fixed portion disposed around the movable portion in the direction of a center axis shiftably so as to position the movable portion in a radial direction. The leaf spring is made of stainless steel having relative magnetic permeability which is not less than 1.1.

    摘要翻译: 板簧支撑相对于可移动部分设置在可移动部分周围的圆柱形固定部分的中心部分的可移动的支柱形可动部分,以便可移动部分沿径向方向定位。 板簧由不锈钢制成,具有不小于1.1的相对导磁率。

    Leaf spring with high thrust
    3.
    发明授权
    Leaf spring with high thrust 有权
    板簧高推力

    公开(公告)号:US08531789B2

    公开(公告)日:2013-09-10

    申请号:US13031764

    申请日:2011-02-22

    IPC分类号: G02B27/00

    CPC分类号: F16F1/027 F16F1/021

    摘要: A leaf spring supports a pillar shaped movable portion disposed in a center portion with respect to a cylindrical fixed portion disposed around the movable portion in the direction of a center axis shiftably so as to position the movable portion in a radial direction. The leaf spring is made of stainless steel having relative magnetic permeability which is not less than 1.1.

    摘要翻译: 板簧支撑相对于可移动部分设置在可移动部分周围的圆柱形固定部分的中心部分的可移动的支柱形可动部分,以便可移动部分沿径向定位。 板簧由不锈钢制成,具有不小于1.1的相对导磁率。

    LEAF SPRING WITH HIGH VICKERS HARDNESS
    4.
    发明申请
    LEAF SPRING WITH HIGH VICKERS HARDNESS 有权
    LEAF弹簧与高VICKERS硬度

    公开(公告)号:US20110205646A1

    公开(公告)日:2011-08-25

    申请号:US13031745

    申请日:2011-02-22

    IPC分类号: G02B7/04 F16F1/18

    CPC分类号: F16F1/027

    摘要: A leaf spring supports a pillar shaped movable portion disposed in a center portion with respect to a cylindrical fixed portion disposed around the movable portion in the direction of a center axis shiftably so as to position the movable portion in a radial direction. The leaf spring is made of a material having Vickers hardness which is not less than 500 (HV).

    摘要翻译: 板簧支撑相对于可移动部分设置在可移动部分周围的圆柱形固定部分的中心部分的可移动的支柱形可动部分,以便可移动部分沿径向定位。 板簧由维氏硬度不低于500(HV)的材料制成。

    SOLID-ELECTROLYTE BATTERY
    5.
    发明申请
    SOLID-ELECTROLYTE BATTERY 审中-公开
    固体电解质电池

    公开(公告)号:US20120183834A1

    公开(公告)日:2012-07-19

    申请号:US13497059

    申请日:2010-08-05

    IPC分类号: H01M10/052

    摘要: A solid-electrolyte battery is provided that includes a LiNbO3 film serving as a buffer layer between a positive-electrode active material and a solid electrolyte and has a sufficiently low electrical resistance. The solid-electrolyte battery includes a positive-electrode layer, a negative-electrode layer, and a solid-electrolyte layer that conducts lithium ions between the electrode layers, wherein a buffer layer that is a LiNbO3 film is disposed between a positive-electrode active material and a solid electrolyte, and a composition ratio (Li/Nb) of Li to Nb in the LiNbO3 film satisfies 0.93≦Li/Nb≦0.98. The buffer layer may be disposed between the positive-electrode layer and the solid-electrolyte layer or on the surface of a particle of the positive-electrode active material. The buffer layer may have a thickness of 2 nm to 1 μm.

    摘要翻译: 提供了一种固体电解质电池,其包括用作正极活性材料和固体电解质之间的缓冲层的LiNbO 3膜,并且具有足够低的电阻。 固体电解质电池包括在电极层之间传导锂离子的正极层,负极层和固体电解质层,其中作为LiNbO 3膜的缓冲层设置在正极活性物质 材料和固体电解质,并且LiNbO 3膜中的Li与Nb的组成比(Li / Nb)分别为0.93< ll; Li / Nb< 1E; 0.98。 缓冲层可以设置在正极层和固体电解质层之间或者在正极活性物质的粒子的表面上。 缓冲层可以具有2nm至1μm的厚度。

    Lithium battery
    6.
    发明授权
    Lithium battery 失效
    锂电池

    公开(公告)号:US08197970B2

    公开(公告)日:2012-06-12

    申请号:US12208497

    申请日:2008-09-11

    摘要: A lithium battery includes a substrate, a positive electrode layer, a negative electrode layer, and a sulfide solid electrolyte layer disposed between the positive electrode layer and the negative electrode layer, the positive electrode layer, the negative electrode layer, and the sulfide solid electrolyte layer being provided on the substrate. In this lithium battery, the positive electrode layer is formed by a vapor-phase deposition method, and a buffer layer that suppresses nonuniformity of distribution of lithium ions near the interface between the positive electrode layer and the sulfide solid electrolyte layer is provided between the positive electrode layer and the sulfide solid electrolyte layer. As the buffer layer, a lithium-ion conductive oxide, in particular, LixLa(2−x)/3TiO3 (x=0.1 to 0.5), Li7+xLa3Zr2O12+(x/2) (−5≦x≦3, preferably −2≦x≦2), or LiNbO3 is preferably used.

    摘要翻译: 锂电池包括设置在正极层和负极层之间的基板,正极层,负极层和硫化物固体电解质层,正极层,负极层和硫化物固体电解质 层设置在基板上。 在该锂电池中,通过气相沉积法形成正极层,并且在正极层和硫化物固体电解质层之间的界面附近抑制锂离子分布的不均匀性的缓冲层设置在阳极 电极层和硫化物固体电解质层。 作为缓冲层,特别是锂离子传导性氧化物,特别是LixLa(2-x)/ 3TiO3(x = 0.1〜0.5),Li7 + xLa3Zr2O12 +(x / 2)(-5< lE; x≦̸ 3,优选-2& ; x和nlE; 2)或LiNbO 3。

    VACUUM PROCESSING SYSTEM
    7.
    发明申请
    VACUUM PROCESSING SYSTEM 审中-公开
    真空加工系统

    公开(公告)号:US20120067521A1

    公开(公告)日:2012-03-22

    申请号:US12968357

    申请日:2010-12-15

    IPC分类号: H01L21/3065 C23C16/458

    CPC分类号: H01L21/67109 H01L21/67178

    摘要: A vacuum processing system including a cassette holder for setting up cassettes in which samples are stored, an air-transfer chamber for transferring the samples, lock chambers for storing the samples transferred from the air-transfer chamber, the lock chambers being capable of switching between air atmosphere and vacuum atmosphere in their inside, a vacuum transfer chamber connected to the lock chambers, vacuum containers for processing the samples transferred via the vacuum transfer chamber, a cooling chamber for cooling the samples down to a first temperature, the samples being processed in at least one of the vacuum containers, and a cooling unit for cooling the samples down to a second temperature, the samples being cooled in the cooling chamber. The cooling unit is deployed in the air transfer chamber, and has a cooling part for cooling the samples, being cooled in the cooling chamber, down to the second temperature.

    摘要翻译: 一种真空处理系统,包括用于设置其中存储样品的盒的盒保持器,用于传送样品的空气传送室,用于存储从空气传送室传送的样品的锁定室,能够在 空气气氛和真空气氛,连接到锁定室的真空传送室,用于处理通过真空传送室传送的样品的真空容器,用于将样品冷却至第一温度的冷却室,将样品加工成 至少一个真空容器和用于将样品冷却至第二温度的冷却单元,样品在冷却室中被冷却。 冷却单元布置在空气传送室中,并且具有冷却部件,用于冷却样品,在冷却室中冷却至第二温度。

    NONAQUEOUS ELECTROLYTE SECONDARY BATTERY AND METHOD FOR PRODUCING THE SAME
    8.
    发明申请
    NONAQUEOUS ELECTROLYTE SECONDARY BATTERY AND METHOD FOR PRODUCING THE SAME 审中-公开
    非电解电解质二次电池及其制造方法

    公开(公告)号:US20100279176A1

    公开(公告)日:2010-11-04

    申请号:US12743287

    申请日:2009-06-29

    IPC分类号: H01M4/131 H01M4/04

    摘要: There is provided a nonaqueous electrolyte secondary battery in which lithium ions can move smoothly between a positive electrode and a solid electrolyte layer, the nonaqueous electrolyte secondary battery having improved internal resistance.The nonaqueous electrolyte secondary battery includes a positive electrode 1, a negative electrode 2, and a solid electrolyte layer 3 arranged between the positive and negative electrodes. The positive electrode 1 includes a positive-electrode sintered body 10 formed by firing a powder containing a positive-electrode active material and includes a cover layer 11 arranged on a surface of the positive-electrode sintered body 10 adjacent to the solid electrolyte layer 3, the cover layer containing a positive-electrode active material. The cover layer 11 contains a compound having a layered rock-salt structure. Preferably, the direction of the c-axis of the crystal of the compound is not perpendicular to the surface of the positive-electrode sintered body. More preferably, a buffer layer 4 composed of LiNbO3 is arranged between the positive electrode 1 and the solid electrolyte layer 3, the buffer layer being configured to reduce interface resistance.

    摘要翻译: 提供一种非水电解质二次电池,其中锂离子可以在正电极和固体电解质层之间平稳移动,非水电解质二次电池具有改善的内阻。 非水电解质二次电池包括正极1,负极2和布置在正极和负极之间的固体电解质层3。 正极1包括通过焙烧包含正极活性物质的粉末而形成的正极烧结体10,并且包括布置在与固体电解质层3相邻的正极烧结体10的表面上的覆盖层11, 所述覆盖层含有正极活性物质。 覆盖层11含有具有层状岩盐结构的化合物。 优选地,化合物的晶体的c轴方向不垂直于正极烧结体的表面。 更优选地,在正极1和固体电解质层3之间配置有由LiNbO 3组成的缓冲层4,缓冲层被配置为降低界面电阻。

    Coating composition for optical fiber
    9.
    发明授权
    Coating composition for optical fiber 失效
    光纤用涂料组合物

    公开(公告)号:US6057034A

    公开(公告)日:2000-05-02

    申请号:US65483

    申请日:1998-04-24

    摘要: In the coating composition for a optical fiber of the present invention, a polyurethane (meth)acrylate oligomer (A), which is based on a urethane prepolymer having an equivalent ratio of NCO group in a polyisocyanate (a) to OH group in a polyol (b) of more than 3.0, is used and the oligomer (A) has a mixing weight ratio of an oligomer (d) having a number average molecular weight of 800 or less to an oligomer (e) having a number average molecular weight of 1,000 or more of 30/70-70/30.The coating composition of this invention has a low viscosity, and therefore, is suitable for a rapid fiber-drawing in a production of an optical fiber. Further, a cured material obtained from the coating composition of the present invention has both a high elastic modulus and a high elongation, which properties are required for a hard material, and has a slight change of elastic modulus with a change of temperature to improve a long-term reliability of an optical fiber.

    摘要翻译: 在本发明的光纤用涂料组合物中,以多异氰酸酯(a)中的NCO基与OH基的多元醇的氨基甲酸酯预聚物为基准的聚氨酯(甲基)丙烯酸酯低聚物(A) (b)为3.0以上,低聚物(A)的数均分子量为800以下的低聚物(d)与数均分子量为800以下的低聚物(e)的混合重量比为 30 / 70-70 / 30的1,000或更多。 本发明的涂料组合物具有低粘度,因此适用于光纤生产中的快速拉伸。 此外,由本发明的涂料组合物得到的固化物具有高的弹性模量和高的伸长率,硬质材料需要这些性能,并随着温度的变化而具有轻微的弹性模量的变化,从而改善了 光纤的长期可靠性。