公开(公告)号：US20180265985A1

公开(公告)日：2018-09-20

申请号：US15920391

申请日：2018-03-13

Applicant: Raytheon Company

Inventor： Curtis B. Carlsten ,  Jonathan Murrow ,  Erik F. Item

IPC: C23C18/16 ,  F42B12/76 ,  F42B10/14 ,  B32B37/16 ,  C23C18/08 ,  B64C1/00 ,  B63B3/16

CPC classification number: C23C18/1616 ,  B32B37/16 ,  B63B3/16 ,  B64C1/00 ,  B64C2001/0072 ,  C23C18/08 ,  C23C18/16 ,  C23C18/1601 ,  C23C18/1603 ,  C23C18/1614 ,  C23C18/1633 ,  C23C18/1639 ,  C23C18/1641 ,  F42B10/143 ,  F42B12/76

Abstract: A composite structural component is disclosed. The composite structural component can include a lattice structure, a casing disposed about at least a portion of the lattice structure, and a skin adhered to a surface of the casing. The lattice structure and the casing can be formed of a polymeric material and the skin can be formed of a metallic material. A method of manufacturing a composite structural component is disclosed. The method can include creating a casing of a polymeric material and creating a lattice structure of a polymeric material disposed about at least a portion of the casing. The method can include sealing the porosity of the casing and lattice structure. The method can include adhering a skin of a metallic material to at least a portion of the casing. At least one of creating a lattice structure and creating a casing comprises utilizing an additive manufacturing process.

公开(公告)号：US09920429B2

公开(公告)日：2018-03-20

申请号：US14557286

申请日：2014-12-01

Applicant: Raytheon Company

Inventor： Curtis B. Carlsten ,  Jonathan Murrow ,  Erik F. Item

IPC: C23C18/08 ,  C23C18/16 ,  F42B10/14 ,  F42B12/76 ,  B64C1/00 ,  B63B3/16 ,  B32B37/16

CPC classification number: C23C18/1616 ,  B32B37/16 ,  B63B3/16 ,  B64C1/00 ,  B64C2001/0072 ,  C23C18/08 ,  C23C18/16 ,  C23C18/1601 ,  C23C18/1603 ,  C23C18/1614 ,  C23C18/1633 ,  C23C18/1639 ,  C23C18/1641 ,  F42B10/143 ,  F42B12/76

Abstract: A composite structural component is disclosed. The composite structural component can include a lattice structure, a casing disposed about at least a portion of the lattice structure, and a skin adhered to a surface of the casing. The lattice structure and the casing can be formed of a polymeric material and the skin can be formed of a metallic material. A method of manufacturing a composite structural component is disclosed. The method can include creating a casing of a polymeric material and creating a lattice structure of a polymeric material disposed about at least a portion of the casing. The method can include sealing the porosity of the casing and lattice structure. The method can include adhering a skin of a metallic material to at least a portion of the casing. At least one of creating a lattice structure and creating a casing comprises utilizing an additive manufacturing process.

公开(公告)号：US09316742B2

公开(公告)日：2016-04-19

申请号：US13711615

申请日：2012-12-12

Applicant: NATIONAL CHUNG SHAN INSTITUTE OF SCIENCE AND TECHNOLOGY

Inventor： Chien-Chon Chen

IPC: G01T1/20 ,  G01T1/00 ,  C25D1/02 ,  B44C1/22 ,  C23C18/18 ,  C23C18/16 ,  C25D11/04 ,  C25D11/08 ,  C25D11/12 ,  C25D11/16 ,  C25D11/24 ,  C25D11/26 ,  C25F3/20 ,  C23C18/36 ,  C23G1/12 ,  G01T1/202

CPC classification number: G01T1/003 ,  B44C1/227 ,  C23C18/1616 ,  C23C18/1879 ,  C23C18/36 ,  C23G1/125 ,  C25D1/02 ,  C25D11/045 ,  C25D11/08 ,  C25D11/12 ,  C25D11/16 ,  C25D11/24 ,  C25D11/26 ,  C25F3/20 ,  G01T1/2006 ,  G01T1/202

Abstract: An ordering structure scintillator of scintillator and fabrication method is disclosed. The ordering structure scintillator of scintillator comprises: a tubular template, which consists of a plurality of thin film oxidized metal tubes; a plurality of scintillators, filled in the thin film oxidized metal tubes; and a package layer, formed on the surface of the tubular template for protecting the tubular template. In addition, through the fabrication method, the ordering structure scintillator of scintillator can be made by anodic treatment and die casting technology with low cost and rapid production; moreover, the film oxidized metal tubes of the tubular template can be further manufactured to nano tubes by adjusting electrolyte composition, electrolysis voltage, and processing time of anodic treatment, and the aperture size, the thickness and the vessel density of the nano tube can be controlled and ranged from 10 nm to 500 nm, 0.1 μm to 1000 μm, and 108 to 1012 tube/cm2, respectively.

Abstract translation: 公开了闪烁体的排序结构闪烁体和制造方法。 闪烁体的有序结构闪烁体包括：管状模板，由多个薄膜氧化金属管组成; 多个闪烁体，填充在薄膜氧化金属管中; 以及形成在管状模板的表面上用于保护管状模板的封装层。 另外，通过制造方法，可以通过阳极处理和压铸技术以低成本，快速的生产制造闪烁体的有序结构闪烁体; 此外，可以通过调节电解质组成，电解电压和阳极处理的处理时间，将管状模板的膜氧化金属管进一步制造成纳米管，并且可以将纳米管的孔径，厚度和容器密度 控制范围为10nm至500nm，0.1μm至1000μm，108至1012管/ cm2。

公开(公告)号：US08349393B2

公开(公告)日：2013-01-08

申请号：US10902398

申请日：2004-07-29

Applicant: Yung-Herng Yau ,  Thomas B. Richardson ,  Joseph A. Abys ,  Karl F. Wengenroth ,  Anthony Fiore ,  Chen Xu ,  Chonglun Fan ,  John Fudala

Inventor： Yung-Herng Yau ,  Thomas B. Richardson ,  Joseph A. Abys ,  Karl F. Wengenroth ,  Anthony Fiore ,  Chen Xu ,  Chonglun Fan ,  John Fudala

IPC: B05D5/00

CPC classification number: H05K1/09 ,  C09D1/00 ,  C23C18/16 ,  C23C18/1614 ,  C23C18/1616 ,  C23C18/1633 ,  C23C18/1683 ,  C23C18/1687 ,  C23C18/42 ,  C23C18/44 ,  C23C18/54 ,  C23C22/06 ,  C23C22/58 ,  C25D3/46 ,  C25D3/56 ,  C25D3/64 ,  H05K3/244 ,  H05K3/422 ,  H05K2203/0257 ,  H05K2203/073 ,  Y10S205/916

Abstract: Compositions and methods for silver plating onto metal surfaces such as PWBs in electronics manufacture to produce a silver plating which is greater than 80 atomic % silver, tarnish resistant, and has good solderability.

公开(公告)号：US20120137970A1

公开(公告)日：2012-06-07

申请号：US13389846

申请日：2010-07-01

Applicant: Hiroyuki Naruse ,  Hitoshi Karasawa ,  Kenichi Yokoo

Inventor： Hiroyuki Naruse ,  Hitoshi Karasawa ,  Kenichi Yokoo

IPC: B05C13/02

CPC classification number: C23C18/1619 ,  C23C18/1616 ,  C23C18/1803 ,  C25D5/08 ,  C25D7/04 ,  C25D17/004 ,  C25D17/08 ,  F02F1/20

Abstract: Provided is a device for treating the inner surface of a cylinder barrel. A cover member (32) is provided, at the lower surface (59) thereof, with seal rings (54, 55, 56). The seal rings (54, 55, 56) are disposed concentrically about the center axis (63) of a cylinder barrel (43, 67). The lower ends of the seal rings (54, 55, 56) are disposed at different levels of height in such a manner that the farther away from the center axis (63), the higher the positions of the lower ends relative to the seal ring (54) closest to the center axis (63).

Abstract translation: 提供了一种用于处理气缸筒的内表面的装置。 在其下表面（59）处设置有密封环（54,55,56）的盖构件（32）。 密封环（54,55,56）围绕气缸筒（43,67）的中心轴线（63）同心地设置。 密封环（54,55,56）的下端以不同高度的高度设置，使得离中心轴线（63）越远，下端相对于密封环的位置越高 （54）最接近中心轴线（63）。

公开(公告)号：US20090014334A1

公开(公告)日：2009-01-15

申请号：US11873343

申请日：2007-10-16

Applicant: Wenzhen Xie ,  Donglin Li

Inventor： Wenzhen Xie ,  Donglin Li

IPC: C25D3/12 ,  C25D5/02 ,  C23C22/56 ,  C25D3/56 ,  C23C2/06 ,  C25D5/44

CPC classification number: F28F21/08 ,  C23C18/1616 ,  C23C18/1653 ,  C23C18/32 ,  F28F9/18

Abstract: This invention involves the technical area of chemical plating in aluminum radiators, referring specifically to the partial chemical plating technique in the inner cavity of aluminum radiator. It undergoes the inner cavity shielding before zinc impregnation and continues chemical oxidization in other parts in the chemical the based on the existing oxidization trough, making the unshielded area unable to sediment a layer of zinc and be plated with nickel and phosphors alloy. Then, it is applied with enclosure technique. The chemical oxidization and enclosure enable the sections other than the inner cavity in the aluminum radiator to be covered with a layer of oxidization film against erosion from acid and alkali, so the sections covered with a oxidization film will not accumulate a layer of zinc nor be plated with nickel and phosphor alloy in the subsequent zinc impregnation and nickel plating. Only the surface of the inner cavity is plated with nickel and phosphor alloy. The technique in this invention is simple and easy to achieve, with only the walls in inner cavity being plated with nickel and phosphor alloy, which can save up nickel and effectively cut the aluminum radiators' costs.

Abstract translation: 本发明涉及铝散热器中化学镀的技术领域，具体涉及铝散热器内腔中的部分化学镀技术。 在锌浸渍之前，它经历内腔屏蔽，并在化学中的其他部分继续基于现有的氧化槽进行化学氧化，使得非屏蔽区域不能沉积一层锌并镀镍和磷光体合金。 然后，应用封闭技术。 化学氧化和封闭使得铝散热器中的除了内部空腔之外的部分被一层氧化膜覆盖，以防止酸和碱的侵蚀，因此用氧化膜覆盖的部分不会积聚一层锌，也不会 在随后的锌浸渍和镀镍中镀有镍和磷合金。 只有内腔的表面镀镍和磷光合金。 本发明的技术简单易行，内腔内仅镀镍和磷光合金，可节省镍，有效降低铝散热器成本。

公开(公告)号：US07111799B2

公开(公告)日：2006-09-26

申请号：US10362777

申请日：2001-08-20

Applicant: Mark Batich ,  Andrew T. Hunt ,  Miodrag Oljaca

Inventor： Mark Batich ,  Andrew T. Hunt ,  Miodrag Oljaca

IPC: B05B1/00

CPC classification number: B21C5/003 ,  B21C5/00 ,  B21K21/12 ,  C23C18/1616 ,  C23C18/1653 ,  C23C18/31 ,  C23C18/32 ,  C25D7/04

Abstract: Tubular needles have a reduced inner diameter tip portion that increases back pressure behind the tip portion. This constricted tip portion promotes improved atomization, particularly when the liquid passes through the needle at near-supercritical conditions. A preferred method for constricting the inner diameter of a needle tip is to dip the dip of the needle in an electroless plating solution, such as an electroless nickel solution.

Abstract translation: 管状针具有减小的内径尖端部分，其增加顶端部分后面的背压。 这种收缩的尖端部分促进改善的雾化，特别是当液体在接近超临界条件下通过针时。 用于收缩针尖的内径的优选方法是将针的浸渍浸入诸如无电解镍溶液的化学镀溶液中。

公开(公告)号：US06761929B2

公开(公告)日：2004-07-13

申请号：US10181773

申请日：2002-07-22

Applicant: Ashok S. Damle

Inventor： Ashok S. Damle

IPC: B05D722

CPC classification number: B01D67/0069 ,  B01D69/10 ,  B01D71/022 ,  B01D2323/08 ,  C01B3/503 ,  C01B3/505 ,  C04B41/009 ,  C04B41/4541 ,  C04B41/5111 ,  C04B41/81 ,  C04B41/88 ,  C04B2111/00801 ,  C23C6/00 ,  C23C18/1616 ,  C23C18/1644 ,  C23C18/1651 ,  C23C18/1844 ,  C23C18/1893 ,  C23C18/32 ,  C23C18/38 ,  C23C18/44 ,  C04B41/457 ,  C04B41/5122 ,  C04B35/10 ,  C04B35/14 ,  C04B35/48 ,  C04B38/00 ,  C04B41/4521

Abstract: A method is provided for the preparation of metal/porous substrate composite membranes by flowing a solution of metal to be plated over a first surface of a porous substrate and concurrently applying a pressure of gas on a second surface of the porous substrate, such that the porous substrate separates the solution of metal from the gas, and the use of the resulting membrane for the production of highly purified hydrogen gas.

Abstract translation: 提供了一种通过使待镀金属溶液流过多孔基材的第一表面并同时在多孔基材的第二表面上施加气体压力来制备金属/多孔基材复合膜的方法， 多孔基材将金属溶液与气体分离，并使用所得膜用于生产高纯度氢气。

公开(公告)号：US06617047B1

公开(公告)日：2003-09-09

申请号：US09869139

申请日：2001-06-26

Applicant: Stephan Hüffer ,  Thilo Krebs ,  Wolfgang Loth ,  Bernd Rumpf ,  Jürgen Sturm ,  Bernd Diebold ,  Juergen Korkhaus ,  Joachim Nilges ,  Axel Franke

Inventor： Stephan Hüffer ,  Thilo Krebs ,  Wolfgang Loth ,  Bernd Rumpf ,  Jürgen Sturm ,  Bernd Diebold ,  Juergen Korkhaus ,  Joachim Nilges ,  Axel Franke

IPC: B05D136

CPC classification number: F28F19/02 ,  C23C18/1616 ,  C23C18/1662 ,  C23C18/36 ,  Y10T428/12556 ,  Y10T428/12944 ,  Y10T428/31678

Abstract: The present invention relates to a process for coating apparatuses and apparatus parts for chemical plant construction—which are taken to mean, for example, apparatus, tank and reactor walls, discharge devices, valves, pumps, filters, compressors, centrifuges, columns, dryers, comminution machines, internals, packing elements and mixing elements—wherein a metal layer or a metal/polymer dispersion layer is deposited in an electroless manner on the apparatus(es) or apparatus part(s) to be coated by bringing the parts into contact with a metal electrolyte solution which, in addition to the metal electrolyte, comprises a reducing agent and optionally the polymer or polymer mixture to be deposited in dispersed form, where at least one polymer is halogenated.

Abstract translation: 本发明涉及一种用于化工厂建设的涂布设备和设备部件的方法，其被认为是指例如设备，罐和反应器壁，排放装置，阀，泵，过滤器，压缩机，离心机，柱，干燥器 粉碎机，内部构件，填料元件和混合元件，其中金属层或金属/聚合物分散层以无电解的方式沉积在待涂覆的设备或设备部分上，使部件接触 与除了金属电解质之外的金属电解质溶液包含还原剂和任选的待分散形式沉积的聚合物或聚合物混合物，其中至少一种聚合物被卤化。

公开(公告)号：US06509103B1

公开(公告)日：2003-01-21

申请号：US09869147

申请日：2001-06-26

Applicant: Stephan Hüffer ,  Andreas Deckers ,  Wilhelm Weber ,  Roger Klimesch ,  Dieter Littmann ,  Jürgen Sturm ,  Götz Lerch

Inventor： Stephan Hüffer ,  Andreas Deckers ,  Wilhelm Weber ,  Roger Klimesch ,  Dieter Littmann ,  Jürgen Sturm ,  Götz Lerch

IPC: B05D722

CPC classification number: F28F19/02 ,  C23C18/1616 ,  C23C18/1662 ,  C23C18/36 ,  Y10T428/12556 ,  Y10T428/12944 ,  Y10T428/31678

Abstract: A process for coating a reactor, which comprises depositing a metal layer or a metal/polymer dispersion layer on the internal surface of the reactor in an electroless manner by bringing the surfaces into contact with a metal electrolyte solution which, besides the metal electrolyte, comprises a reducing agent and optionally a halogenated polymer to be deposited in dispersed form.

Abstract translation: 一种用于涂覆反应器的方法，其包括通过使金属电解质溶液与金属电解质溶液接触而以化学方式沉积在反应器内表面上的金属层或金属/聚合物分散层 还原剂和任选的以分散形式沉积的卤化聚合物。