公开(公告)号：US20140126058A1

公开(公告)日：2014-05-08

申请号：US13666967

申请日：2012-11-02

Applicant: Hung-Ling Tsai

Inventor： Hung-Ling Tsai

IPC: G02B5/00 ,  C23F17/00 ,  C23C28/00

CPC classification number: C23F17/00 ,  C23C28/321 ,  C23C28/322 ,  C23C28/345 ,  C23C28/3455 ,  G02B1/105 ,  G02B1/14 ,  G02B5/0808

Abstract: A weatherproof high-reflection plate includes a main reflection layer, a preconditioning layer, a reflecting enhancement layer and a transparent protective layer. The main reflection layer consists of aluminum, aluminum alloy or a combination thereof; the preconditioning layer is an oxide layer formed on the main reflection layer; the reflecting enhancement layer covers the preconditioning layer; the transparent protective layer is fluorocarbon paint coated on the reflecting enhancement layer. As such, the weatherproof high-reflection plate features waterproof and anti-corrosion surface and superior reflectivity in wavelength coverage of visible light.

Abstract translation: 防风雨高反射板包括主反射层，预处理层，反射增强层和透明保护层。 主反射层由铝，铝合金或其组合构成; 预处理层是形成在主反射层上的氧化物层; 反射增强层覆盖预处理层; 透明保护层是涂覆在反射增强层上的氟碳漆。 因此，防水高反射板具有防水和防腐蚀表面，并且在可见光的波长覆盖范围内具有优异的反射率。

公开(公告)号：US07537807B2

公开(公告)日：2009-05-26

申请号：US10951254

申请日：2004-09-27

Applicant: Harold G. Craighead ,  Jun Kameoka

Inventor： Harold G. Craighead ,  Jun Kameoka

IPC: B05D1/04

CPC classification number: C23F17/00 ,  B82Y30/00 ,  D01D5/0069 ,  D01F6/64 ,  D01F6/66 ,  Y10S977/856 ,  Y10S977/888 ,  Y10T428/24562

Abstract: Nanofibers are formed using electrospray deposition from microfluidic source. The source is brought close to a surface, and scanned in one embodiment to form oriented or patterned fibers. In one embodiment, the surface has features, such as trenches on a silicon wafer. In further embodiments, the surface is rotated to form patterned nanofibers, such as polymer nanofibers. The nanofibers may be used as a mask to create features, and as a sacrificial layer to create nanochannels.

Abstract translation: 使用来自微流体源的电喷雾沉积形成纳米纤维。 将源靠近表面，并在一个实施例中扫描以形成定向或图案化的纤维。 在一个实施例中，表面具有诸如硅晶片上的沟槽的特征。 在另外的实施方案中，旋转表面以形成图案化的纳米纤维，例如聚合物纳米纤维。 纳米纤维可以用作掩模以产生特征，并且作为牺牲层来制造纳米通道。

公开(公告)号：US07520049B2

公开(公告)日：2009-04-21

申请号：US11283798

申请日：2005-11-22

Applicant: Gyongtae Kim

Inventor： Gyongtae Kim

IPC: H01C17/28

CPC classification number: C23F17/00 ,  C22C1/002 ,  C22F1/04 ,  C23C18/10 ,  H05B3/845 ,  Y10T29/49082 ,  Y10T29/49083 ,  Y10T29/49099 ,  Y10T29/49101 ,  Y10T29/49117 ,  Y10T29/49124 ,  Y10T29/49155 ,  Y10T29/49156

Abstract: Disclosed herein is a manufacturing method of a planar resistance heating element and a planar resistance heating element made using the method. In the manufacturing method of a planar resistance heating element by etching an aluminum foil deposited on an insulating substrate in a desired pattern, printing carbon paste and connecting current input terminals in parallel, the aluminum foil is adapted to undergo a multiple step tempering process to thereby prevent heat deformation. The carbon paste acting as a resistor element is made of electrically conductive carbon, graphite, a resin, a solvent and a hardener which are mixed so as to optimize physical properties of the carbon paste. As a result, prevention of heat deformation of the insulating substrate, uniform heat conductivity, excellent heat-generation effect and easy manufacture may be achieved. In addition, the use of the carbon paste having optimized physical properties as a resistor element results in good heat-generation and near-zero temperature variation.

Abstract translation: 本发明公开了使用该方法制造的平面电阻加热元件和平面电阻加热元件的制造方法。 在平面电阻加热元件的制造方法中，通过以期望的图案蚀刻沉积在绝缘基板上的铝箔，平行地印刷碳糊和连接电流输入端，铝箔适于进行多步回火处理，从而 防止热变形。 作为电阻元件的碳糊料由导电性碳，石墨，树脂，溶剂和固化剂构成，混合以优化碳糊的物理性质。 结果，可以防止绝缘基板的热变形，均匀的导热性，优异的发热效果和容易的制造。 此外，使用具有优化物理性质的碳糊作为电阻元件导致良好的发热和近零温度变化。

公开(公告)号：US20070181230A1

公开(公告)日：2007-08-09

申请号：US10593971

申请日：2005-03-09

Applicant: Arnaud Dessis ,  Henri Giraud ,  Caroline Dhondt

Inventor： Arnaud Dessis ,  Henri Giraud ,  Caroline Dhondt

IPC: C21D6/00

CPC classification number: C21D1/26 ,  B21B45/06 ,  C21D1/74 ,  C21D9/52 ,  C21D9/561 ,  C21D2211/001 ,  C23F17/00 ,  C23G1/086 ,  C23G3/021 ,  C23G3/028

Abstract: The subject of the invention is a process for the continuous manufacture of an austenitic stainless steel strip having a dull surface appearance, consisting in subjecting an austenitic stainless steel strip to a heat treatment in a bright annealing furnace inside which an inert or reducing flushing gas circulates, which gas has a dew point above −15° C., and then in pickling the strip using a suitable acid pickling solution.

Abstract translation: 本发明的主题是连续制造具有钝的表面外观的奥氏体不锈钢带的方法，其包括在奥氏体不锈钢带在惰性或还原冲洗气体循环的光亮退火炉内进行热处理 ，该气体的露点高于-15℃，然后使用合适的酸洗液酸洗该条带。

公开(公告)号：US4596628A

公开(公告)日：1986-06-24

申请号：US643066

申请日：1984-08-22

Applicant: Wolfgang Betz

Inventor： Wolfgang Betz

IPC: C04B41/53 ,  B23K20/00 ,  C23C4/04 ,  C23C4/18 ,  C23F17/00 ,  F28D21/00 ,  C23F1/02 ,  B44C1/22 ,  C03C15/00 ,  C03C25/06

CPC classification number: F28F7/02 ,  C23C26/00 ,  C23C4/02 ,  C23C4/18 ,  C23C4/185 ,  C23F17/00 ,  F28D7/0025

Abstract: A method for manufacturing components having thin walls of complex design by depositing a layer of metal or ceramic material on a shaped substratum. The resulting coated shaped bodies are then arranged inside an external envelope such that the shaped bodes represent the cavities to be incorporated in the component under manufacture whereas the coatings represent the walls surrounding the cavities. The envelope is then hermetically sealed, evacuated and upon evacuation, subjected to a hot compression operation. Thereafter, the envelope and the shaped bodies are at least partially removed by chemical or mechanical processes. Several layers of various materials and various chemical and physical properties can be deposited on the shaped bodies to form the walls.

Abstract translation: 一种制造具有复杂设计薄壁部件的方法，通过在一个成形的基底上沉积一层金属或陶瓷材料。 所得到的涂覆的成形体然后被布置在外部封套内，使得成形的臂代表待加工在组件中的空腔，而涂层代表围绕空腔的壁。 然后将该信封密封，抽真空并且在抽空时进行热压缩操作。 此后，通过化学或机械方法至少部分去除外壳和成形体。 可以在成形体上沉积多层各种材料和各种化学和物理性质以形成壁。

公开(公告)号：US4145481A

公开(公告)日：1979-03-20

申请号：US821546

申请日：1977-08-03

Applicant: Dinesh K. Gupta ,  Louis E. Dardi ,  William R. Freeman, Jr.

Inventor： Dinesh K. Gupta ,  Louis E. Dardi ,  William R. Freeman, Jr.

IPC: C23C10/00 ,  C23C10/52 ,  C23C28/02 ,  C23F17/00 ,  B05D3/06

CPC classification number: C23F17/00 ,  C22C19/03 ,  C22C19/07 ,  C22C38/00 ,  C23C10/00 ,  C23C10/52 ,  C23C28/021 ,  C23C28/023 ,  C23C28/028 ,  Y10T428/12931 ,  Y10T428/12937 ,  Y10T428/12944

Abstract: A process for providing coatings on metal articles whereby the articles will be resistant to corrosion at elevated temperatures. The process involves the application of an overlay on an article surface, the overlay comprising a ductile metal of a composition normally resistant to corrosion at elevated temperatures. An outer layer of aluminide or metal which is resistant to corrosion at elevated temperatures but which is subject to embrittlement at such temperatures is applied to complete the coating. Porosity in the coating is then eliminated and a high integrity corrosion resistant coating not subject to cracking is obtained by heating the article in a gaseous atmosphere to elevated temperature and simultaneously applying isostatic pressure to the article.

Abstract translation: 一种用于在金属制品上提供涂层的方法，其中制品将在高温下耐腐蚀。 该方法涉及在物品表面上施加覆盖层，所述覆盖物包括通常耐高温腐蚀的组合物的延性金属。 施加在高温下耐腐蚀但在这种温度下易于脆化的铝化物或金属的外层，以完成涂层。 然后消除涂层中的孔隙率，并且通过在气态气氛中将制品加热到高温并同时对制品施加等静压力，获得不会破裂的高完整性耐腐蚀涂层。

公开(公告)号：US3319314A

公开(公告)日：1967-05-16

申请号：US46209365

申请日：1965-06-07

Applicant: BERLIET AUTOMOBILES ,  HYDROMECANIQUE & FROTTEMENT

Inventor： JACQUES CAUBET JEAN

IPC: B23P9/02 ,  B24B1/00 ,  C21D7/04 ,  C22F1/00 ,  C23C8/02 ,  C23C8/80 ,  C23C10/02 ,  C23C10/60 ,  C23F17/00 ,  F16C33/12 ,  F16D69/00

CPC classification number: B24B1/00 ,  B23P9/02 ,  C21D7/04 ,  C22F1/00 ,  C23C8/02 ,  C23C8/80 ,  C23C10/02 ,  C23C10/60 ,  C23F17/00 ,  F16C33/12 ,  F16C33/125 ,  F16C2204/00 ,  F16C2220/44 ,  F16C2220/60 ,  F16C2223/70 ,  F16C2240/54 ,  F16D69/00 ,  Y10T29/47 ,  Y10T29/49703

公开(公告)号：US3109963A

公开(公告)日：1963-11-05

申请号：US5240960

申请日：1960-08-29

Applicant: BELL TELEPHONE LABOR INC

Inventor： GEBALLE THEODORE H

IPC: C23F17/00 ,  H01F6/02 ,  H01F6/06 ,  H01L39/14 ,  H01L39/24

CPC classification number: C21D8/06 ,  C21D1/26 ,  C21D7/10 ,  C23F17/00 ,  C25D3/48 ,  C25D5/48 ,  C25D7/001 ,  C25D7/0607 ,  H01F6/02 ,  H01F6/06 ,  H01L39/14 ,  H01L39/2403 ,  Y10S505/884 ,  Y10S505/887 ,  Y10T29/49014

公开(公告)号：US3066042A

公开(公告)日：1962-11-27

申请号：US85550859

申请日：1959-11-27

Applicant: ENGELHARD IND INC

Inventor： JOSEPH OGDEN

IPC: B23K35/00 ,  C23C4/08 ,  C23C4/18 ,  C23C28/02 ,  C23F17/00 ,  C25B11/08 ,  C25B11/10

CPC classification number: C23C10/28 ,  B23K35/005 ,  C21D7/06 ,  C23C4/08 ,  C23C4/18 ,  C23C28/023 ,  C23F17/00

Abstract: A method of coating a refractory metal body consisting essentially of Mo, Ta, W or Ti, comprises the steps of (1) cleaning the body, (2) spraying molten platinum group metals (e.g. Pt, Pd, Rh, or their alloys) on to the surface, (3) plastically deforming the coating (by shotpeening, pressing or rolling), and (4) heat treating the coated body at 600-1400 DEG C. for a time sufficient to promote solid diffusion of the coating (e.g. 1-10 hours). These steps (1)-(4) are repeated until a sufficient thickness of coating metal has been built up. The heat treating step may be carried out in dry hydrogen.

公开(公告)号：US12098445B2

公开(公告)日：2024-09-24

申请号：US17699502

申请日：2022-03-21

Applicant: SHENZHENSHI YUZHAN PRECISION TECHNOLOGY CO., LTD.

Inventor： Wen-Cheng Zhu ,  Xiao-Qing Fu ,  Jing-Ping Sang ,  Li-Ming Shen ,  Qing Lin

IPC: C25D11/08 ,  C22C14/00 ,  C23F1/20 ,  C23F17/00 ,  C25D11/06 ,  C25D11/10 ,  C25D11/18 ,  C25D11/24 ,  C25D11/34 ,  C25F3/08

CPC classification number: C22C14/00 ,  C23F1/20 ,  C23F17/00 ,  C25D11/08 ,  C25D11/10 ,  C25D11/18 ,  C25D11/24 ,  C25D11/34 ,  C25F3/08 ,  C25D11/06

Abstract: A titanium alloy product includes a titanium alloy substrate and a plurality of first holes defined in a surface of the titanium alloy substrate. The first holes have an opening on the surface of the titanium alloy substrate and an inner wall connecting with the opening, a diameter of the inner space is greater than a diameter of the opening. The product tensile strength of bonding between the titanium alloy product and a material part filled in the first holes is very high. A housing with the titanium alloy product and a method for manufacturing the titanium alloy product are also disclosed.