公开(公告)号：US08540424B2

公开(公告)日：2013-09-24

申请号：US12642171

申请日：2009-12-18

Applicant: Jeffrey E. Price

Inventor： Jeffrey E. Price

IPC: G01K1/00

CPC classification number: B05D1/00 ,  B29C31/00 ,  G01K1/083 ,  G01K2211/00

Abstract: A cover for a shaft of an electronic thermometer probe. The cover includes a tubular body having an open end and a closed end opposite the open end. The body defines a cavity sized and shaped to slidably receive the shaft of the electronic thermometer probe. At least a portion of the tubular body is formed from a nanotube composite material including a polymer matrix material and a carbon nanotube filler material.

Abstract translation: 电子温度计探头轴的盖子。 该盖包括具有开口端和与开口端相对的封闭端的管状体。 主体限定了尺寸和形状以可滑动地容纳电子温度计探针的轴的空腔。 管状体的至少一部分由包含聚合物基体材料和碳纳米管填充材料的纳米管复合材料形成。

公开(公告)号：US20130216719A1

公开(公告)日：2013-08-22

申请号：US13881983

申请日：2011-10-25

Applicant: Manish Doshi ,  Ronak Choksi ,  Prakash Sojitra

Inventor： Manish Doshi ,  Ronak Choksi ,  Prakash Sojitra

IPC: B05D1/26 ,  B05C3/02

CPC classification number: B05D1/26 ,  B05C3/02 ,  B05C3/109 ,  B05D1/00 ,  B05D1/18

Abstract: The invention provides a method and apparatus for coating a substrate. The apparatus includes one or more enclosures positioned at an angle relative to a plane. Each enclosure is capable of receiving one or more substrates. The one or more enclosures include one or more inlets for receiving a coating fluid. The coating fluid flows in a pre-defined direction to coat the one or more substrates with the coating fluid. The one or more enclosures are positioned at the angle relative to the plane by one or more supporting structures and are dynamically adjustable to enable the flow of coating fluid in pre-defined direction.

Abstract translation: 本发明提供一种涂覆基材的方法和装置。 该装置包括一个或多个相对于平面成角度定位的外壳。 每个外壳都能够接收一个或多个基板。 一个或多个外壳包括一个或多个用于接收涂布液的入口。 涂覆流体以预定的方向流动，以涂覆一个或多个基材与涂布液。 一个或多个外壳通过一个或多个支撑结构相对于平面成角度定位，并且是动态可调节的，以使涂覆流体在预定方向上流动。

公开(公告)号：US20130211001A1

公开(公告)日：2013-08-15

申请号：US13833233

申请日：2013-03-15

Applicant: VALSPAR SOURCING, INC.

Inventor： Charles Skillman ,  Paul E. Share ,  Greg Paulson ,  Richard H. Evans ,  Benoit Prouvost ,  Paul Stenson

IPC: C09D5/08

CPC classification number: C08G63/553 ,  B05D1/00 ,  B65D1/12 ,  B65D25/14 ,  C08L61/12 ,  C08L2203/10 ,  C09D5/08 ,  C09D167/06 ,  Y10T428/1355 ,  C08L2666/16

Abstract: A polymer is provided that preferably includes at least one unsaturated cycloaliphatic group. In one embodiment, the polymer is combined with an optional crosslinker and an optional carrier to form a coating composition suitable for use in coating articles such as packaging articles. In one embodiment, the polymer has at least one unsaturated cycloaliphatic group that is at least bicyclic.

公开(公告)号：US20130197214A1

公开(公告)日：2013-08-01

申请号：US13747373

申请日：2013-01-22

Applicant: Joseph M. Jacobson ,  David W. Mosley ,  Kie-Moon Sung

Inventor： Joseph M. Jacobson ,  David W. Mosley ,  Kie-Moon Sung

IPC: C08B37/16

CPC classification number: C08B37/0012 ,  B05D1/00 ,  C01B13/00 ,  C08B37/0015 ,  Y10S977/778 ,  Y10S977/882 ,  Y10T428/25 ,  Y10T428/2991

Abstract: Fabrication and arrangement of nanoparticles into one-dimensional linear chains is achieved by successive chemical reactions, each reaction adding one or more nanoparticles by building onto exposed, unprotected linker functionalities. Optionally, protecting groups may be used to control and organize growth. Nanoparticle spheres are functionalized in a controlled manner in order to enable covalent linkages. Functionalization of nanoparticles is accomplished by either ligand exchange or chemical modification of the terminal functional groups of the capping ligand. Nanoparticle chains are obtained by a variety of connectivity modes such as direct coupling, use of linker molecules, and use of linear polymeric templates. In particular, a versatile building block system is obtained through controlled monofunctionalization of nanoparticles.

公开(公告)号：US08449960B2

公开(公告)日：2013-05-28

申请号：US13267928

申请日：2011-10-07

Applicant: Charles Skillman ,  Paul E. Share ,  Greg Paulson ,  Richard H. Evans ,  Benoit Prouvost ,  Paul Stenson

Inventor： Charles Skillman ,  Paul E. Share ,  Greg Paulson ,  Richard H. Evans ,  Benoit Prouvost ,  Paul Stenson

IPC: B29D22/00 ,  B29D23/00 ,  B32B1/08 ,  B32B15/08

CPC classification number: C08G63/553 ,  B05D1/00 ,  B65D1/12 ,  B65D25/14 ,  C08L61/12 ,  C08L2203/10 ,  C09D5/08 ,  C09D167/06 ,  Y10T428/1355 ,  C08L2666/16

Abstract: A polymer is provided that preferably includes at least one unsaturated cycloaliphatic group. In one embodiment, the polymer is combined with an optional crosslinker and an optional carrier to form a coating composition suitable for use in coating articles such as packaging articles. In one embodiment, the polymer has at least one unsaturated cycloaliphatic group that is at least bicyclic.

公开(公告)号：US20130108840A1

公开(公告)日：2013-05-02

申请号：US13287461

申请日：2011-11-02

Applicant: Ilia N. Ivanov ,  John T. Simpson

Inventor： Ilia N. Ivanov ,  John T. Simpson

IPC: B32B3/00 ,  B05D5/12

CPC classification number: H01B1/24 ,  B05D1/00 ,  B05D5/08 ,  H01L51/442 ,  H01L51/5209 ,  Y10T428/24802

Abstract: A method of preparing a network comprises disposing a solution comprising particulate materials in a solvent onto a superhydrophobic surface comprising a plurality of superhydrophobic features and interfacial areas between the superhydrophobic features. The plurality of superhydrophobic features has a water contact angle of at least about 150°. The method of preparing the network also comprises removing the solvent from the solution of the particulate materials, and forming a network of the particulate materials in the interfacial areas, the particulate materials receding to the interfacial areas as the solvent is removed.

Abstract translation: 制备网络的方法包括将包含颗粒材料的溶液置于包含多个超疏水特征的超疏水表面和超疏水特征之间的界面区域的溶液中。 多个超疏水特征具有至少约150°的水接触角。 制备网络的方法还包括从颗粒材料的溶液中除去溶剂，以及在界面区域中形成颗粒材料的网络，当除去溶剂时，颗粒材料后退到界面区域。

公开(公告)号：US20130087748A1

公开(公告)日：2013-04-11

申请号：US13644957

申请日：2012-10-04

Applicant: KOREA ATOMIC ENEGY RESEARCH INSTITUTE

Inventor： Sung-Hee Jung ,  Seong-Ho Choi ,  Jong-bum Kim ,  Jinho Moon ,  Jin-Hyuck Jung

IPC: B05D1/00

CPC classification number: G01F1/7042 ,  B01J13/18 ,  B05D1/00 ,  B82Y40/00 ,  G21G4/06 ,  G21H5/02 ,  Y10S977/902

Abstract: Heteronuclear radioisotope nanoparticle of core-shell structure and a preparation method thereof are provided. The Heteronuclear radioisotope nanoparticle of core-shell structure comprising core of two different radioisotopes selected from a group consisting of 198Au, 63Ni, 110mAg, 64Cu, 60Co, 192Ir and 103Pd, and a shell comprising Si02 surrounding the core.The Heteronuclear radioisotope nanoparticle of core-shell can be used as a tracer for the purpose of detecting variation of volume ratio or for the evaluation of the behavior characteristic of a water resource, based on information about phase ratio in the flow of multiphase fluid existing in a process which is operated under extreme condition such as high temperature and/or high pressure conditions.

Abstract translation: 提供核 - 壳结构的异核放射性同位素纳米颗粒及其制备方法。 核 - 壳结构的异核放射性同位素纳米颗粒包含选自由198Au，63Ni，110mAg，64Cu，60Co，192Ir和103Pd组成的组的两种不同放射性同位素的芯，以及包含围绕芯的SiO 2的壳。 核壳的异核放射性同位素纳米颗粒可以用作示踪剂，用于检测体积比的变化或用于评价水资源的行为特征，基于存在于多相流体中的多相流的流动相位比的信息 在极端条件下操作的过程，例如高温和/或高压条件。

公开(公告)号：US20130035637A1

公开(公告)日：2013-02-07

申请号：US13651015

申请日：2012-10-12

Applicant: Atrium Medical Corporation

Inventor： Steve A. Herweck ,  Paul Martakos ,  Geoffrey Moodie ,  Roger Labrecque ,  Theodore Karwoski ,  Trevor Carlton ,  Lisa Rogers ,  Joseph Ferraro

IPC: A61M25/10

CPC classification number: B05D1/00 ,  A61F2/82 ,  A61F2/958 ,  A61F2250/0067 ,  A61L29/08 ,  A61L29/16 ,  A61L2300/606 ,  A61M25/1027 ,  A61M25/1038 ,  A61M2025/1031 ,  B05D2259/00 ,  Y10T29/49

Abstract: A non-polymeric or biological coating applied to a radially expandable interventional medical device in a collapsed, wrapped, or folded configuration, the coating applied within at least one fold. Properties of the coating material applied to the medical device are adjusted or varied to result in a desired combination of coverage of the surface of the medical device, drug loading, and coating thickness. The coating is sterile, and is capable of being carried by a sterile medical device to a targeted tissue location within the body following radial expansion. The therapeutic coating transfers off the medical device due in part to a biological attraction with the tissue and in part to a physical transference from the medical device to the targeted tissue location in contact with the medical device.

Abstract translation: 以折叠的，包裹的或折叠的形式施加到可径向展开的介入医疗装置的非聚合物或生物涂层，所述涂层施用在至少一个折叠内。 调整或改变施加到医疗装置上的涂层材料的性质，以产生医疗装置的表面，药物负载和涂层厚度的覆盖范围的期望组合。 涂层是无菌的，并且能够在径向膨胀后由无菌医疗装置携带到身体内的目标组织位置。 治疗涂层部分地由于与组织的生物吸引而部分地转移离开医疗装置，并且部分地从医疗装置到与医疗装置接触的目标组织位置的物理转移。

公开(公告)号：US20120189764A1

公开(公告)日：2012-07-26

申请号：US13191792

申请日：2011-07-27

Applicant: Ayumu Yokoyama ,  Anthony Moy

Inventor： Ayumu Yokoyama ,  Anthony Moy

IPC: B05D3/00

CPC classification number: B05D1/00 ,  B05D5/063 ,  G01N21/57

Abstract: The present invention is directed to a process for process for predicting gloss of a coating resulting from a wet layer of a low gloss coating composition, such as automotive OEM or refinish paint. The process includes measuring reflectance of the layer of the coating composition applied over a test substrate and then allowing the layer to dry and/or cure into a coating. Thereafter, its gloss is measured with a gloss meter. The process is repeated with varying amounts of one or flatting agents added to the composition and the reflectance vs. gloss is plotted on a graph and by using a curve fitting equation a gloss prediction curve is obtained. By measuring the reflectance of a wet layer of a target low gloss coating composition the gloss of a coating that would result from such a layer is then predicted by using the gloss prediction curve. The process is most useful during the manufacture of coating compositions, such as automotive OEM and refinishes paints.

Abstract translation: 本发明涉及一种用于预测由低光泽涂料组合物的湿层（例如汽车OEM或修补漆）产生的涂层的光泽的方法。 该方法包括测量施加在测试基底上的涂层组合物的层的反射率，然后使该层干燥和/或固化成涂层。 此后，用光泽计测量其光泽度。 用添加到组合物中的不同量的一种或平化剂重复该过程，并且在曲线图上绘制反射率与光泽度，并且通过使用曲线拟合方程获得光泽预测曲线。 通过测量目标低光泽涂料组合物的湿层的反射率，然后通过使用光泽预测曲线预测由该层产生的涂层的光泽度。 该方法在制造涂料组合物期间是最有用的，例如汽车OEM和修补漆。

公开(公告)号：US20110308455A1

公开(公告)日：2011-12-22

申请号：US13223374

申请日：2011-09-01

Applicant: Hyuk-soon CHOI ,  Hyo-sug LEE ,  June-mo KOO ,  Kwang-hee KIM

Inventor： Hyuk-soon CHOI ,  Hyo-sug LEE ,  June-mo KOO ,  Kwang-hee KIM

IPC: B05C3/10 ,  B05C11/00

CPC classification number: B05D3/0263 ,  B05D1/00 ,  B05D1/185 ,  B05D2401/32 ,  B22F1/0018 ,  B22F1/0062 ,  B22F2998/00 ,  B82Y10/00 ,  B82Y30/00 ,  Y10T428/24355 ,  Y10T428/24372 ,  Y10T428/24479 ,  Y10T428/2457 ,  Y10T428/2462 ,  B22F1/0022

Abstract: A method of forming a nano-particle array by convective assembly and a convective assembly apparatus for the same are provided. The method of forming nano-particle array comprises: coating a plurality of nano-particles by forming a coating layer; performing a first convective assembly by moving a first substrate facing, in parallel to and spaced apart from a second substrate at a desired distance such that a colloidal solution including the coated nano-particles is between the first and second substrate; and performing a second convective assembly for evaporating a solvent by locally heating a surface of the colloidal solution drawn when the first substrate is moved in parallel relative to the second substrate. The present invention provides the method of forming the nano-particle array where nano-particles having a particle size from a few to several tens of nanometers are uniformly arrayed on a large area substrate at a low cost, and the convective assembly apparatus for the same.

Abstract translation: 提供了通过对流组装形成纳米颗粒阵列的方法和用于其的对流组装装置。 形成纳米颗粒阵列的方法包括：通过形成涂层来涂覆多个纳米颗粒; 通过将第一衬底移动到与第二衬底平行并间隔开所需距离的方式执行第一对流组件，使得包含涂覆的纳米颗粒的胶体溶液位于第一和第二衬底之间; 以及执行用于蒸发溶剂的第二对流组件，其通过局部加热当所述第一衬底相对于所述第二衬底平行移动时所绘制的所述胶体溶液的表面而蒸发溶剂。 本发明提供了形成纳米粒子阵列的方法，其中纳米粒子具有几个到几十个纳米的粒子以低成本均匀地排列在大面积基底上，而对流装配装置 。