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11. 发明授权

US09236669B2 Electrically and thermally non-metallic conductive nanostructure-based adapters 有权
标题翻译：电和热非金属导电纳米结构的适配器
公开(公告)号：US09236669B2
公开(公告)日：2016-01-12
申请号：US12187278
申请日：2008-08-06
申请人： Jennifer Mann , David S. Lashmore , Brian White
发明人： Jennifer Mann , David S. Lashmore , Brian White
IPC分类号： H01B7/00 , H01R4/58 , H01B1/24
CPC分类号： H01B13/0016 , H01B1/24 , H01R4/58
摘要： A conductive adapter for carrying relatively high current from a source to an external circuit without degradation is provided. The adapter includes a conducting member made from a conductive nanostructure-based material and having opposing ends. The adapter can also include a connector portion positioned on one end of the conducting member for maximizing a number of conductive nanostructures within the conducting member in contact with connector portion, so as to enable efficient conduction between a nanoscale environment and a traditional electrical and/or thermal circuit system. The adapter can further include a coupling mechanism situated between the conducting member and the connector portion, to provide a substantially uniform contact between the conductive nanostructure-based material in the conducting member and the connector portion. A method for making such a conductive adapter is also provided.
摘要翻译：提供了一种用于承载来自源极到外部电路的相当高的电流而不劣化的导电适配器。适配器包括由导电纳米结构基材料制成并具有相对端的导电构件。适配器还可以包括定位在导电构件的一端上的连接器部分，用于使导电构件内的与连接器部分接触的多个导电纳米结构最大化，以便能够在纳米尺度环境和传统电气和/或热电路系统。适配器还可以包括位于导电构件和连接器部分之间的耦合机构，以在导电构件中的基于导电纳米结构的材料和连接器部分之间提供基本均匀的接触。还提供了制造这种导电适配器的方法。

12. 发明申请

US20090042455A1 Electrically and Thermally Non-Metallic Conductive Nanostructure-Based Adapters 有权
标题翻译：电热非金属导电纳米结构的适配器
公开(公告)号：US20090042455A1
公开(公告)日：2009-02-12
申请号：US12187278
申请日：2008-08-06
申请人： Jennifer Mann , David S. Lashmore , Brian White
发明人： Jennifer Mann , David S. Lashmore , Brian White
IPC分类号： H01R4/02
CPC分类号： H01B13/0016 , H01B1/24 , H01R4/58
摘要： A conductive adapter for carrying relatively high current from a source to an external circuit without degradation is provided. The adapter includes a conducting member made from a conductive nanostructure-based material and having opposing ends. The adapter can also include a connector portion positioned on one end of the conducting member for maximizing a number of conductive nanostructures within the conducting member in contact with connector portion, so as to enable efficient conduction between a nanoscale environment and a traditional electrical and/or thermal circuit system. The adapter can further include a coupling mechanism situated between the conducting member and the connector portion, to provide a substantially uniform contact between the conductive nanostructure-based material in the conducting member and the connector portion. A method for making such a conductive adapter is also provided.
摘要翻译：提供了一种用于承载来自源极到外部电路的相当高的电流而不劣化的导电适配器。适配器包括由导电纳米结构基材料制成并具有相对端的导电构件。适配器还可以包括定位在导电构件的一端上的连接器部分，用于使导电构件内的与连接器部分接触的多个导电纳米结构最大化，以便能够在纳米尺度环境和传统电气和/或热电路系统。适配器还可以包括位于导电构件和连接器部分之间的耦合机构，以在导电构件中的基于导电纳米结构的材料和连接器部分之间提供基本均匀的接触。还提供了制造这种导电适配器的方法。

13. 发明授权

US07898079B2 Nanotube materials for thermal management of electronic components 有权
标题翻译：纳米管材料用于电子元件的热管理
公开(公告)号：US07898079B2
公开(公告)日：2011-03-01
申请号：US11413512
申请日：2006-04-28
申请人： David S. Lashmore , Joseph J. Brown
发明人： David S. Lashmore , Joseph J. Brown
IPC分类号： H01L23/24 , H01L23/26 , H01L23/367 , H01L23/373 , B32B9/00 , H05K7/20
CPC分类号： H01L23/373 , B82Y10/00 , H01L23/3677 , H01L24/32 , H01L2924/01004 , H01L2924/01006 , H01L2924/01013 , H01L2924/01019 , H01L2924/0102 , H01L2924/01023 , H01L2924/01029 , H01L2924/01033 , H01L2924/01042 , H01L2924/01047 , H01L2924/01057 , H01L2924/01074 , H01L2924/014 , H01L2924/14 , Y10S977/742 , Y10S977/753 , Y10S977/778 , Y10T29/4935 , Y10T428/30 , H01L2924/00
摘要： A heat-conducting medium for placement between a heat source and heat sink to facilitate transfer of heat from the source to the sink is provided. The heat-conducting medium can include a flexible member made from an array of interweaving carbon nanotubes. The heat-conducting medium may also include an upper surface against which a heat source may be placed, an opposing lower surface and edges about the member designed for coupling to a heat sink toward which heat from the heat source can be directed. The heat-conducting medium may also include a pad placed on the upper surface to provide structural support to the member. A method for manufacturing the heat-conducting medium is also provided.
摘要翻译：提供了一种用于放置在热源和散热器之间以便于将热量从源传送到水槽的导热介质。导热介质可以包括由交织的碳纳米管阵列制成的柔性构件。导热介质还可以包括可以放置热源的上表面，相对的下表面和围绕该构件的边缘的边缘，该构件被设计成耦合到散热器，热源可以朝向其散发热量。导热介质还可以包括放置在上表面上的垫以向构件提供结构支撑。还提供了制造导热介质的方法。

14. 发明申请

US20100104849A1 Carbon composite materials and methods of manufacturing same 审中-公开
标题翻译：碳复合材料及其制造方法相同
公开(公告)号：US20100104849A1
公开(公告)日：2010-04-29
申请号：US11415927
申请日：2006-05-02
申请人： David S. Lashmore , Joseph J. Brown
发明人： David S. Lashmore , Joseph J. Brown
IPC分类号： B32B3/26 , C01B31/00 , A61F2/06
CPC分类号： B29C70/12 , A61F2/91 , A61F2/93 , A61F2210/0076 , B32B1/08 , B32B5/022 , B32B5/26 , B32B5/28 , B32B9/007 , B32B9/04 , B32B27/04 , B32B2260/021 , B32B2260/023 , B32B2260/046 , B32B2262/106 , B32B2264/102 , B32B2264/104 , B32B2264/105 , B32B2535/00 , B82Y30/00 , C01B32/16 , C08J5/24 , C08K3/04 , D01F1/10 , D21H13/50 , F41H5/04 , F41H5/0428 , F41H5/0471 , Y10T428/249953 , Y10T428/249954 , Y10T428/249978
摘要： A method for manufacturing a carbon composite is provided. The method includes providing a carbon-containing resin material to which an appropriate concentration of catalyst particles may be added. Thereafter, the catalyzed resin may be subject to a high temperature range, at which point carbon in the resin to begins to couple to the catalyst particles. Continual exposure to high temperature leads to additional attachment of carbon to existing carbon on the particles. Subsequently growth, within the resin material, of an array of carbon nanotubes occurs, as well as the formation of the composite material.
摘要翻译：提供了一种制造碳复合材料的方法。该方法包括提供可以加入适当浓度的催化剂颗粒的含碳树脂材料。此后，催化树脂可以经历高温范围，此时树脂中的碳开始耦合到催化剂颗粒。持续暴露于高温导致碳附着到颗粒上的现有碳上。随后在碳纳米管阵列内发生树脂材料内的生长，以及复合材料的形成。

15. 发明申请

US20090215344A1 Systems And Methods For Formation And Harvesting of Nanofibrous Materials 审中-公开
标题翻译：纳米纤维材料的形成和收获系统与方法
公开(公告)号：US20090215344A1
公开(公告)日：2009-08-27
申请号：US12390906
申请日：2009-02-23
申请人： David S. Lashmore , Joseph J. Brown , Jared K. Chaffee , Bruce Resnicoff , Peter Antoinette
发明人： David S. Lashmore , Joseph J. Brown , Jared K. Chaffee , Bruce Resnicoff , Peter Antoinette
IPC分类号： D04H5/00 , B32B15/14
CPC分类号： B32B5/26 , B32B5/022 , B32B7/05 , B32B2250/20 , B32B2262/106 , B32B2307/54 , B32B2307/552 , B32B2457/00 , B32B2551/00 , B82Y30/00 , D01F9/127 , D01F9/133 , D01G1/06 , D02G3/02 , D04H1/4242 , D04H1/4382 , D04H1/4391 , D04H1/44 , D04H1/72 , D04H1/728 , D04H1/74 , D10B2101/122 , Y10S977/742 , Y10S977/842 , Y10T442/60 , Y10T442/654 , Y10T442/699
摘要： A system that receives nanomaterials, forms nanofibrous materials therefrom, and collects these nanofibrous materials for subsequent applications. The system is coupled to a chamber that generates nanomaterials, typically carbon nanotubes produced from chemical vapor deposition, and includes a mechanism for spinning the nanotubes into yarns or tows. Alternatively, the system includes a mechanism for forming non-woven sheets from the nanotubes. The system also includes components for collecting the formed nanofibrous materials. Methods for forming and collecting the nanofibrous materials are also provided.
摘要翻译：接收纳米材料的系统，从中形成纳米纤维材料，并收集这些纳米纤维材料用于随后的应用。该系统耦合到产生纳米材料的室，通常由化学气相沉积产生的碳纳米管，并且包括用于将纳米管旋转成纱线或丝束的机构。或者，该系统包括用于从纳米管形成无纺布片的机构。该系统还包括用于收集形成的纳米纤维材料的部件。还提供了形成和收集纳米纤维材料的方法。

16. 发明授权

US06342108B1 Low core loss, well-bonded soft magnetic stator, rotor, and armature 失效
标题翻译：低磁芯损耗，良好粘结的软磁定子，转子和电枢
公开(公告)号：US06342108B1
公开(公告)日：2002-01-29
申请号：US09247136
申请日：1999-02-09
申请人： David S. Lashmore , Glenn L. Beane , Lev Deresh , Zonglu Hua
发明人： David S. Lashmore , Glenn L. Beane , Lev Deresh , Zonglu Hua
IPC分类号： H01F114
CPC分类号： H01F1/33 , B22F1/02 , C22C32/0026 , C22C33/0228 , H01F1/24 , H01F41/0246 , H02K1/02 , Y10T428/256 , Y10T428/257 , Y10T428/265 , Y10T428/2991 , Y10T428/2993 , Y10T428/2998
摘要： A ferromagnetic powder comprising ferromagnetic particles coated with a material that does not degrade at temperatures above 150° C and permits adjacent particles to strongly bind together after compaction such that parts made from the ferromagnetic powder have a transverse rupture strength of about 8,000 to about 20,000 pounds/square inch before sintering. The coating includes from 2 to 4 parts of an oxide and one part of a chromate, molybdate, oxalate, phosphate, or tungstate. The coating may be substantially free of organic materials. The invention also includes a method of making the ferromagnetic powder, a method of making soft magnetic parts from the ferromagnetic powder, and soft magnetic parts made from the ferromagnetic powder.
摘要翻译：一种铁磁粉末，其包含涂覆有在150℃以上温度下不会降解的材料的铁磁颗粒，并允许邻近的颗粒在压实后强烈地结合在一起，使得由铁磁性粉末制成的部件具有约8,000至约20,000磅的横向断裂强度 /平方英寸烧结前。涂层包括2至4份氧化物和1份铬酸盐，钼酸盐，草酸盐，磷酸盐或钨酸盐。涂层可以基本上不含有机材料。本发明还包括制造铁磁性粉末的方法，从铁磁性粉末制造软磁性部件的方法以及由铁磁粉末制成的软磁性部件。

17. 发明授权

US06287445B1 Coating particles in a centrifugal bed 失效
标题翻译：在离心床中涂覆颗粒
公开(公告)号：US06287445B1
公开(公告)日：2001-09-11
申请号：US08990567
申请日：1997-12-15
申请人： David S. Lashmore , Glenn L. Beane
发明人： David S. Lashmore , Glenn L. Beane
IPC分类号： C25D500
CPC分类号： C25D17/16
摘要： An apparatus and method are provided for coating particles in a rotating container. A cathode forms an electrically conductive inner surface of a side wall of the container. An anode is positioned relative to the cathode so as to permit both the cathode and the anode to be immersed together in an electrically conductive fluid. A motor is connected to the container and arranged to cause the container to rotate so as to generate a centrifugal force. Particles are placed in the container, the container is filled with the electrically conductive fluid, and electrical current is caused to pass from the cathode to the anode through the electrically conductive fluid while the container is rotated. The particles rest against the electrically conductive inner surface of the side wall of the container while the electrical current passes from the cathode to the anode, so as to result in deposition of a coating material from the electrically conductive fluid onto the particles.
摘要翻译：提供了一种在旋转容器中涂覆颗粒的装置和方法。阴极形成容器的侧壁的导电内表面。阳极相对于阴极定位，以便使阴极和阳极都能够在导电流体中浸没在一起。电动机连接到容器并且被布置成使容器旋转以产生离心力。将颗粒放置在容器中，容器中填充有导电流体，并且当容器旋转时，使电流通过导电流体从阴极传递到阳极。当电流从阴极流到阳极时，颗粒靠在容器侧壁的导电内表面上，从而导致涂层材料从导电流体沉积到颗粒上。

18. 发明授权

US06254757B1 Method for electrochemical fluidized bed coating of powders 失效
标题翻译：粉末电化学流化床涂层方法
公开(公告)号：US06254757B1
公开(公告)日：2001-07-03
申请号：US08673135
申请日：1996-07-01
申请人： David S. Lashmore , Glenn L. Beane , David R. Kelley , Christian E. Johnson
发明人： David S. Lashmore , Glenn L. Beane , David R. Kelley , Christian E. Johnson
IPC分类号： C25D700
CPC分类号： B01J2/006 , B01J2/16 , B22F1/025 , C25D17/18 , C25D21/10 , Y10S118/05
摘要： A method for coating particulate substrate materials is provided which comprises (a) combining particles and an electrolyte in an imperforate container; (b) vibrating the container to generate a fluidized bed of particles in the electrolyte; and (c) electrochemically depositing a coating on the particles from reactants in the electrolyte. An apparatus for coating particles is also provided which comprises an imperforate container for receiving particles to be coated and an electrolyte and a device for generating a fluidized bed in the container, the device being operatively associated with the container.
摘要翻译：提供一种涂覆颗粒基材的方法，其包括（a）在无孔容器中混合颗粒和电解质; （b）振动容器以在电解质中产生颗粒流化床; 和（c）从电解质中的反应物电化学沉积颗粒上的涂层。还提供了一种用于涂覆颗粒的装置，其包括用于接收待涂覆的颗粒的无孔容器和用于在容器中产生流化床的电解质和装置，该装置与容器可操作地相关联。

19. 发明授权

US6001289A Acid assisted cold welding and intermetallic formation 失效
标题翻译：酸辅助冷焊和金属间化合物
公开(公告)号：US6001289A
公开(公告)日：1999-12-14
申请号：US317729
申请日：1994-10-04
申请人： David S. Lashmore , Moshe P. Dariel , Christian E. Johnson , Menahem B. Ratzker , Anthony A. Guiseppetti , Frederick C. Eichmiller , Glenn L. Beane , David R. Kelley
发明人： David S. Lashmore , Moshe P. Dariel , Christian E. Johnson , Menahem B. Ratzker , Anthony A. Guiseppetti , Frederick C. Eichmiller , Glenn L. Beane , David R. Kelley
IPC分类号： A61K6/04 , B22F1/00 , B22F1/02 , B22F3/22 , C22C1/04 , C22C1/10 , C22C47/00 , C22C47/14 , C23C30/00 , B27N3/02 , B05D1/18 , B05D3/10
CPC分类号： C22C1/10 , A61K6/0008 , A61K6/04 , A61K6/043 , A61K6/046 , B22F1/0088 , B22F1/025 , B22F3/22 , C22C1/0466 , C22C47/00 , C22C47/14 , C23C30/00 , B22F2998/00
摘要： A metallic composite solid, containing alloys and/or intermetallics, is formed by compacting at moderate pressure a mixture of powder particles, foils or sheets at a temperature close to room temperature, well below the melting temperature of the constituent components and without the addition of low melting metals such as mercury, indium or gallium acting as a sintering agent. This low temperature consolidation of the powder mixture is enhanced by having the surface oxide of the powder particles removed, prior to consolidation, and/or by coating the particles with an oxide-replacing metal such as silver or gold. The coating process may be replacement reactions, autocatalytic reduction or electrolytic reduction. The composite formation is assisted by the addition of a liquid acid such as fluoroboric acid, sulfuric acid, fluoric acid, adipic acid, ascorbic acid, or nitric acid. A preferred embodiment of the process for metal solid composite formation is a process for forming dental restorative materials at ambient temperatures and under pressure exerted by manual dental instrumentation.
摘要翻译：含有合金和/或金属间化合物的金属复合固体通过在接近于室温的温度下在中等压力下压制粉末颗粒，箔或片的混合物而形成，远低于构成组分的熔融温度，并且不添加作为烧结剂的低熔点金属如汞，铟或镓。通过在固化之前除去粉末颗粒的表面氧化物和/或通过用诸如银或金的氧化物置换金属涂覆颗粒来增强粉末混合物的低温固化。涂覆过程可以是替代反应，自动催化还原或电解还原。通过加入液体酸如氟硼酸，硫酸，氟酸，己二酸，抗坏血酸或硝酸来辅助复合物形成。用于金属固体复合材料形成的方法的优选实施方案是在环境温度和手动牙科仪器施加的压力下形成牙修复材料的方法。

20. 发明授权

US5158653A Method for production of predetermined concentration graded alloys 失效
标题翻译：生产预定浓度分级合金的方法
公开(公告)号：US5158653A
公开(公告)日：1992-10-27
申请号：US249531
申请日：1988-09-26
申请人： David S. Lashmore , Moshe P. Dariel
发明人： David S. Lashmore , Moshe P. Dariel
IPC分类号： C25D5/10 , C25D5/50
CPC分类号： C25D5/10 , C25D5/50 , Y10S204/09
摘要： A process for the production of a composition modulated alloy having a predetermined concentration is disclosed, in which alternating layers of at least two metals are successively deposited upon a substrate by electrodeposition, vacuum deposition, vapor deposition, or sputtering. The individual thicknesses of at least one metal's layers are varied in a predetermined manner. Pulsed galvanostatic electrodeposition using a tailored waveform is preferred. A copper-nickel concentration graded alloy is disclosed. Concentration graded alloys of predetermined concentration having at least one region of local homogeneity are also disclosed. The region of local homogeneity has a thickness corresponding to the thickness of two adjacent layers of different metals which have been diffusion annealed together. A pulsed electrodeposition/diffusion anneal process for production of such alloys is also disclosed. An electrochemical deposition method is also disclosed for the production of a non-layered, continuous concentration graded alloy.
摘要翻译：公开了一种制备具有预定浓度的组成调制合金的方法，其中至少两种金属的交替层通过电沉积，真空沉积，气相沉积或溅射连续沉积在基底上。至少一个金属层的各个厚度以预定的方式变化。优选使用定制波形的脉冲恒电机电沉积。公开了一种铜 - 镍浓度梯度合金。还公开了具有至少一个局部均匀性区域的预定浓度的浓缩分级合金。局部均匀性的区域具有对应于已经被扩散退火在一起的不同金属的两个相邻层的厚度的厚度。还公开了用于生产这种合金的脉冲电沉积/扩散退火工艺。还公开了一种用于生产非层状连续浓度梯度合金的电化学沉积方法。

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