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11. 外观设计

USD708954S1 Container 有权
公开(公告)号：USD708954S1
公开(公告)日：2014-07-15
申请号：US29373572
申请日：2011-04-28
申请人： John E. Barnes , Ravi K. Sawhney , Chris Glupker , Lance G. Hussey , Kurt Botsai
设计人： John E. Barnes , Ravi K. Sawhney , Chris Glupker , Lance G. Hussey , Kurt Botsai

12. 发明授权

US07690164B2 System, method, and apparatus for structural lug formed from a combination of metal and composite laminate materials 有权
标题翻译：用于由金属和复合层压材料的组合形成的结构凸耳的系统，方法和装置
公开(公告)号：US07690164B2
公开(公告)日：2010-04-06
申请号：US11633903
申请日：2006-12-05
申请人： Jared T. Walker , John E. Barnes
发明人： Jared T. Walker , John E. Barnes
IPC分类号： E04C1/00
CPC分类号： B29C70/68 , B29C66/43441 , B29C66/721 , B29C66/742 , B29K2105/06 , B29L2031/3076 , Y10T156/10 , Y10T156/1052 , Y10T428/24182
摘要： A structural lug comprising a metallic base, composite middle layers, and outer layers of metallic material is disclosed. The metallic base of the structure is machined to accommodate the composite plies, which are located on each lateral side of the base and bonded to the base with adhesive. The composite material may comprise an adhesive-based resin with embedded fibers. The metallic base may be formed to minimize peel stresses in the composite layers. The top metallic layers are fitted over and bonded to the composite plies and act as the outermost layers of the lug. The lateral ends of the lug where the top layers come into contact with the machined base may be joined together with friction stir welding or mechanical fasteners to form the completed structure.
摘要翻译：公开了一种包括金属基底，复合中间层和金属材料外层的结构凸耳。该结构的金属底座被加工以适应位于基座的每个侧面上并用粘合剂粘合到基座上的复合层。复合材料可以包括具有嵌入纤维的基于粘合剂的树脂。可以形成金属基底以最小化复合层中的剥离应力。顶部金属层被安装在复合层上并结合到复合帘布层上并用作凸耳的最外层。顶层与加工底座接触的凸耳的侧端部可以用摩擦搅拌焊接或机械紧固件连接在一起以形成完整的结构。

13. 发明授权

US07624910B2 Perforated composites for joining of metallic and composite materials 有权
标题翻译：用于金属和复合材料接合的穿孔复合材料
公开(公告)号：US07624910B2
公开(公告)日：2009-12-01
申请号：US11279970
申请日：2006-04-17
申请人： John E. Barnes , Robert W. Koon , Robert J. Olliffe , Stephen P. Engelstad
发明人： John E. Barnes , Robert W. Koon , Robert J. Olliffe , Stephen P. Engelstad
IPC分类号： B23K33/00 , B23K20/12
CPC分类号： C08J9/0023 , B23K20/1225 , B23K20/1275 , C08F112/08 , C08J9/0028 , C08J9/122 , C08J9/146 , C23C24/04
摘要： Embodiments in the present invention provide a system and method of joining structural members. This method involves aligning the first structural member to a metallic substrate when the first structural member has at least one tapered hole or cavity. A metallic or other like material suitable to cold spraying technology is deposited into the tapered cavity to form a shaped or tapered fastener bonded to the metallic substrate. The shape of the fastener secures the first structural member to the metallic substrate. Additionally, a protective insert may be placed within the shaped or tapered cavity to protect the first structural member during hoe cold spraying deposition when the first structural member is a composite material or other like material susceptible to erosion during the cold spraying technique. After the material has been deposited using cold spray techniques this material may be further solidified and bonded to the metallic substrate using a technique such as friction stir welding in order to increase the load carrying capacity of the in-situ shaped fastener.
摘要翻译：本发明的实施例提供了一种连接结构构件的系统和方法。该方法包括当第一结构构件具有至少一个锥形孔或空腔时将第一结构构件对准金属基底。适用于冷喷涂技术的金属或其它类似材料沉积在锥形腔中以形成结合到金属基底上的成型或锥形紧固件。紧固件的形状将第一结构构件固定到金属基底。此外，当第一结构构件是复合材料或在冷喷涂技术期间易于侵蚀的其它类似材料时，保护插入物可以放置在成形或锥形空腔内以保护第一结构构件。在使用冷喷涂技术沉积材料之后，该材料可以使用诸如摩擦搅拌焊接的技术进一步固化并结合到金属基底上，以增加原位形状的紧固件的承载能力。

14. 发明申请

US20080099534A1 System, method, and apparatus for reinforcing friction stir processed joints 审中-公开
标题翻译：用于加强摩擦搅拌加工接头的系统，方法和装置
公开(公告)号：US20080099534A1
公开(公告)日：2008-05-01
申请号：US11586292
申请日：2006-10-25
申请人： Craig A. Brice , John E. Barnes
发明人： Craig A. Brice , John E. Barnes
IPC分类号： B23K20/12
CPC分类号： B23K20/1235 , B23K20/126 , B23K20/128 , B23K33/004
摘要： Friction stir welded joints are reinforced with a strengthening material that is applied directly to the joint surfaces to counteract the loss of desirable physical properties in the workpieces being joined. The strengthening material is stirred into the weld nugget during processing and locates at the bond interfaces to form a more robust joint. The reinforcing substance is distributed throughout the nugget and counterbalances the loss of strength due to dissolution of the precipitates during processing.
摘要翻译：摩擦搅拌焊接接头用加强材料加强，该强化材料直接施加到接合表面上，以抵抗所连接的工件中所需的物理性能的损失。在加工过程中，将强化材料搅拌到焊接熔核中，并且位于结合界面处以形成更坚固的接头。增强物质分布在整个熔核处，并抵消由于沉淀物在加工过程中溶解而引起的强度损失。

15. 发明申请

US20080003401A1 METALLIC MINI HOOKS FOR JOINING OF METALLIC AND COMPOSITES 审中-公开
标题翻译：用于金属和复合材料接合的金属微型钩
公开(公告)号：US20080003401A1
公开(公告)日：2008-01-03
申请号：US11426937
申请日：2006-06-28
申请人： John E. Barnes , Robert W. Koon , Robert J. Olliffe , Stephen P. Engelstad
发明人： John E. Barnes , Robert W. Koon , Robert J. Olliffe , Stephen P. Engelstad
IPC分类号： B32B3/06
CPC分类号： B29C70/885 , B29C65/562 , B29C65/564 , B29C65/64 , B29C66/1122 , B29C66/21 , B29C66/30321 , B29C66/45 , B29C66/721 , B29C66/72141 , B29C66/742 , B29L2031/3076 , F16B5/07 , Y10T428/24008
摘要： A method for joining a first structural member and a metallic substrate is provided. This method involves drawing projections from a metallic substrate using a Co-Meld or other like process. Individual plies of composite materials may be laid upon the metallic substrate and projections. These projections penetrate the individual ply or layers of the composite material. A mechanical feature that serves as a retaining device may be located at the distal end of the projections in order to prevent separation of the composite materials from the metallic substrate. The composite materials may be infused with a resin or other material to complete the formation of the composite material. Additionally, other layers of composite material may be placed over the mechanical features located at the distal ends.
摘要翻译：提供了一种用于接合第一结构构件和金属基底的方法。该方法包括使用Co-Meld或其它类似方法从金属基底拉伸突起。复合材料的单个层可以铺设在金属基底和突起上。这些突起穿透复合材料的单层或多层。用作保持装置的机械特征可以位于突起的远端，以防止复合材料与金属基底分离。复合材料可以用树脂或其他材料注入以完成复合材料的形成。此外，复合材料的其它层可以放置在位于远端的机械特征上。

16. 发明授权

US4377033A Integrated carbon/insulator structure and method for fabricating same 失效
标题翻译：集成碳/绝缘体结构及其制造方法
公开(公告)号：US4377033A
公开(公告)日：1983-03-22
申请号：US251622
申请日：1981-04-06
申请人： John E. Barnes , Franz Goebel , William T. McHugh
发明人： John E. Barnes , Franz Goebel , William T. McHugh
IPC分类号： H01M4/64 , H01M4/96 , H01M6/14
CPC分类号： H01M4/64 , H01M4/96 , H01M6/14 , Y10T29/49108 , Y10T29/49115
摘要： A thin, integrated carbon/insulator structure, and a method for fabricating same, for use in a primary electrochemical cell. A quantity of a wet carbon slurry material including a mixture of carbon black, water and/or isopropyl alcohol, and a binder such as finely-divided "Teflon" in suspension, is deposited onto a porous fiberglass substrate and rolled to a prescribed thickness. The rolling operation causes a portion of the slurry material to diffuse into the surface of the porous fiberglass substrate and permanently adhere to and unite with a surface portion of the fiberglass substrate in an integrated, interlocking fashion. The fiberglass substrate having the layer of carbon slurry material integrated therewith is then dried to cause the layer of carbon slurry material to dry and shrink to the form of a layer of carbon plaque having a network of cracks produced therethrough in a random pattern as a result of the shrinkage during drying. The layer of carbon plaque at this stage represents an aggregation of porous carbon globules. The layer of carbon plaque is re-rolled to close cracks at the upper surface of the layer while simultaneously establishing a desired thickness for the layer. After curing the above arrangement to increase adherence of the carbon globules to each other and to the fiberglass substrate, an integrated carbon/insulator structure of a desired size and configuration for use in a primary electrochemical cell can be cut out from the abovedescribed arrangement.
摘要翻译：薄的集成碳/绝缘体结构及其制造方法，用于初级电化学电池。将一定数量的包含炭黑，水和/或异丙醇的混合物的湿碳浆料和悬浮液中细碎的“特氟纶”的粘合剂沉积在多孔玻璃纤维基材上并轧制至规定的厚度。轧制操作导致一部分浆料材料扩散到多孔玻璃纤维基材的表面，并以一体化的互锁方式永久地粘合并与玻璃纤维基材的表面部分结合。然后将具有与其一体化的碳浆料材料层的玻璃纤维基材干燥以使碳浆料材料层干燥并收缩成具有随机图案产生的裂纹网络的碳斑块的形式，结果的干燥期间的收缩。该阶段的碳斑层表示多孔碳球的聚集体。碳层的层被重新卷起以在层的上表面处闭合裂纹，同时为该层确定所需的厚度。在固化上述布置以增加碳球彼此和玻璃纤维基材的粘附性之后，可以从上述布置中切出用于初级电化学电池的所需尺寸和构型的整体碳/绝缘体结构。

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