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    • 3. 发明申请
    • CARBON NANOTUBE-COATED SUBSTRATES AND METHODS OF MAKING THE SAME
    • 碳纳米管涂覆的基材及其制备方法
    • WO2015156894A9
    • 2015-11-12
    • PCT/US2015012938
    • 2015-01-26
    • UNIV RICE WILLIAM M
    • PASQUALI MATTEOMIRRI FRANCESCAWHITING TIENYI THERESA
    • H01B1/04
    • H01B1/04B05D1/18B05D1/265B05D1/28B05D1/42B05D3/0272B05D3/0406B05D3/107B82Y30/00B82Y40/00C01B31/0273C01B2202/22Y10S977/742Y10S977/842Y10S977/892Y10S977/932
    • Various embodiments of the present disclosure pertain to methods of making carbon nanotube-coated substrates by dissolving carbon nanotubes in a solvent to form a carbon nanotube solution; and coating a surface of a substrate with the carbon nanotube solution to form one or more carbon nanotube layers on the surface of the substrate. The carbon nanotube solution may include a superacid solvent. A cable made out of the carbon nanotube-coated substrates may include one or more internal insulating layers that surround the surface of one or more internal conductors. Carbon nanotube solutions may be coated onto the one or more internal insulating layers to form one or more carbon nanotube layers. Additional embodiments of the present disclosure pertain to carbon nanotube-coated substrates formed by the methods of the present disclosure. The carbon nanotube-coated substrates may include one or more carbon nanotube layers derived from a carbon nanotube solution.
    • 本公开的各种实施方式涉及通过将碳纳米管溶解在溶剂中以形成碳纳米管溶液来制造碳纳米管涂覆的基底的方法; 以及用碳纳米管溶液涂覆基底的表面以在基底的表面上形成一个或多个碳纳米管层。 碳纳米管溶液可以包含超强酸溶剂。 由碳纳米管涂覆的基底制成的电缆可以包括一个或多个围绕一个或多个内部导体的表面的内部绝缘层。 可以将碳纳米管溶液涂覆到一个或多个内部绝缘层上以形成一个或多个碳纳米管层。 本公开的另外的实施方式涉及通过本公开的方法形成的碳纳米管涂覆的基材。 涂覆有碳纳米管的基板可以包括一个或多个由碳纳米管溶液衍生的碳纳米管层。
    • 5. 发明申请
    • METHOD FOR WATER-PROOFING ELECRONIC COMPONENTS
    • 防水电子元件的方法
    • WO2014143661A1
    • 2014-09-18
    • PCT/US2014/027565
    • 2014-03-14
    • WATERFI, LLC
    • NICHOLAS, Royce, J.YAR, Erek, K.
    • H05K5/06
    • G06F1/1656B05D1/18B05D3/0406B05D3/0493H05K5/064
    • A process for water-proofing devices from the inside out, the process is suited for application to completely fabricated electronic devices to enable them to be used with full functionalities in and under the water and in a variety of aquatic environments, shockproof and corrosion resistant. Multilayer technology fills empty spaces in the electronic device with a first layer of a hydrophobic medium like silicone and then a second layer of an anti-corrosive agent. Creating a vacuum removes air from the insulating mediums, slowly eliminating the vacuum to allow air to push the mediums into the device's internal voids, and then curing while preserving button functionality and patency of electronic pathways.
    • 一种从内向外防水装置的方法,该方法适用于完全制造的电子装置,使其能够在水中和水中以及各种水生环境中的全部功能下使用,防震和耐腐蚀。 多层技术用电子装置中的空白空间填充第一层疏水介质,如硅树脂,然后是第二层防腐剂。 创建真空从绝缘介质中去除空气,缓慢消除真空,使空气将介质推入设备的内部空隙,然后固化,同时保持按钮功能和电子通道通畅。
    • 7. 发明申请
    • DIP-COATING PROCESS AND METHOD FOR MAKING ELECTROPHOTOGRAPHIC PHOTOSENSITIVE MEMBER
    • DIP-COATING PROCESS AND METHOD FOR MAKING ELECTROHOTOGRAPHIC PHOSOSSITICAL MEMBER
    • WO2010044475A1
    • 2010-04-22
    • PCT/JP2009/067949
    • 2009-10-09
    • CANON KABUSHIKI KAISHAKAWAI, YasuhiroKAKU, Kenichi
    • KAWAI, YasuhiroKAKU, Kenichi
    • B05D1/18B05D7/00G03G5/05
    • B05D1/18B05C3/02B05C3/09B05C15/00B05D3/0406B05D3/0486G03G5/00G03G5/04G03G5/0525
    • A dip-coating process includes immersing a member to be coated in a coating solution in a coating vessel and lifting the member to be coated while covering a side surface of the member to be coated with a telescopic sliding hood to form a coating film on a surface of the member to be coated. The telescopic sliding hood includes a plurality of tubular members connected so that their diameters successively decrease upward in a dip-coating direction, and can cover the side surface of the member to be coated by extending in association with the movement of the member to be coated during the lift of the member to be coated. While the member to be coated is being lifted, a downward airflow in the dip-coating direction is generated in a gap between an inner surface of the telescopic sliding hood and the member to be coated to discharge solvent vapor to outside the telescopic sliding hood.
    • 浸涂工艺包括将待涂覆的部件浸入涂覆容器中的涂覆溶液中并提起要涂覆的部件,同时覆盖要涂覆的部件的侧表面,以便在可伸缩的滑动罩上形成涂覆膜 待涂层构件的表面。 可伸缩滑动罩包括多个管状构件,其连接成使得它们的直径在浸涂方向上连续地向下减小,并且可以通过与要涂覆的构件的移动相关联地延伸而覆盖待涂覆构件的侧表面 在要涂覆的构件的提升期间。 当待涂覆的构件被提起时,在可伸缩滑动罩的内表面和待涂覆构件之间的间隙中产生在浸涂方向上的向下气流,以将溶剂蒸汽排出到伸缩式滑动罩外部。
    • 8. 发明申请
    • METHOD AND APPARATUS FOR APPLYING A COATING ONTO A SUBSTRATE
    • 将涂层涂覆在基材上的方法和装置
    • WO01036889A1
    • 2001-05-25
    • PCT/US2000/030764
    • 2000-11-08
    • B05B15/12B05D3/04B05D7/00F26B21/06
    • B05D7/544B05B16/20B05D3/0406B05D7/574F26B21/06F26B2210/12
    • A coating system is provided having at least one first basecoat applicator (24) for applying a first basecoat layer over at least a portion of a surface of a substrate (12), at least one second basecoat applicator for applying a second (30) basecoat layer over the first basecoat layer, and a first drying chamber (40) located between the first and second basecoat applicators, the first drying chamber providing a temperature of about 50 DEG F to about 90 DEG F (10-32.5 DEG C), a relative humidity of about 40 % to about 80 % and an air velocity of about 20FPM to about 150FPM (0.10-0.76 m/s) at the surface of the first basecoat layer. A method of coating a substrate is provided in which a first liquid basecoat material is applied over the substrate. The first basecoat material is exposed to air having a temperature of about 50 DEG F to about 90 DEG F (10-32.5 DEG C), a relative humidity of about 40 % to about 80 % and an air velocity of about 20FPM to about 150FPM (0.10-0.76 m/s) at the surface of the first basecoat material for a period of about 10 to about 180 seconds. A second liquid basecoat material is then applied over the first basecoat material.
    • 提供了一种涂层系统,其具有至少一个第一底涂层施加器(24),用于在基底(12)的表面的至少一部分上施加第一底涂层,至少一个第二底涂层施加器,用于施加第二(30)底涂层 和位于第一和第二底涂层施加器之间的第一干燥室(40),第一干燥室提供约50°F至约90°F(10-32.5℃)的温度, 相对湿度为约40%至约80%,空气速度为第一底涂层表面的约20FPM至约150FPM(0.10-0.76m / s)。 提供一种涂布基材的方法,其中第一液体底涂层材料施加在基材上。 将第一种底漆材料暴露于温度为约50°F至约90°F(10-32.5℃)的空气中,相对湿度为约40%至约80%,空气速度为约20FPM至约150FPM (0.10-0.76m / s)在第一底涂层材料的表面上约10至约180秒的时间。 然后将第二液体底漆材料施加在第一底漆材料上。