| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 丝线拉制方法 | CN201380045863.4 | 2013-07-31 | CN104602833A | 2015-05-06 | A·韦尔莱纳; S·诺埃尔 |
| 用于拉制钢丝线的方法,所述方法适用于碳质量比C使得0.4%≤C≤0.74%的丝线。所述方法包括将丝线从一个直径d’拉制至另一个直径d的不间断系列的步骤(7001-700m),d’和d用mm表示,其中真实应变ε’=2.ln(d’/d)使得ε’>4。 | ||||||
| 2 | 基于铝箔的软管 | CN200880118925.9 | 2008-09-30 | CN101952630A | 2011-01-19 | 尼基尔·巴克西; 保罗·艾伦·格斯; 尤金·A·迪亚内蒂 |
| 一种用于输送流体的超低渗透性流体构件(例如,软管、管等),该流体构件具有金属蒸气阻挡层(22),该金属蒸气阻挡层(22)围绕内管(14)而形成。金属蒸气阻挡层(22)由一个或多个具有边缘部分(44)的金属带(40a,40b)形成,该边缘部分(44)被结合以密封蒸气阻挡层(22),从而防止蒸气渗透。 | ||||||
| 3 | 丝线拉制方法 | CN201380045863.4 | 2013-07-31 | CN104602833B | 2017-05-24 | A·韦尔莱纳; S·诺埃尔 |
| 用于拉制钢丝线的方法,所述方法适用于碳质量比C使得0.4%≤C≤0.74%的丝线。所述方法包括将丝线从一个直径d’拉制至另一个直径d的不间断系列的步骤(7001‑700m),d’和d用mm表示,其中真实应变ε’=2.ln(d’/d)使得ε’>4。 | ||||||
| 4 | 双重结构的金属丝及其制备方法、股线及并捻方法及面料 | CN201280006249.2 | 2012-01-19 | CN103370460B | 2015-07-29 | 宋容卨; 金文会; 梁建哲; 石钟洙; 元民豪 |
| 本发明涉及包括由银形成的表面层和上述表面层的内部的中心金属层的双重结构的金属丝及其制备方法。按照本发明,具有以下优点:原样保持银的抗菌特性,并以低成本、高效率制备高强度的超细银丝,有利于大量生产抗菌纤维产品。 | ||||||
| 5 | 双重结构的金属丝及其制备方法、股线及并捻方法及面料 | CN201280006249.2 | 2012-01-19 | CN103370460A | 2013-10-23 | 宋容卨; 金文会; 梁建哲; 石钟洙; 元民豪 |
| 本发明涉及包括由银形成的表面层和上述表面层的内部的中心金属层的双重结构的金属丝及其制备方法。按照本发明,具有以下优点:原样保持银的抗菌特性,并以低成本、高效率制备高强度的超细银丝,有利于大量生产抗菌纤维产品。 | ||||||
| 6 | 钙线的成束包覆 | CN200980127175.6 | 2009-06-05 | CN102089244A | 2011-06-08 | 多米尼克·M·科拉维托 |
| 本发明公开了一种包芯活性金属线,其通过下述步骤形成:将至少三股连续供给的细长活性金属线股聚集成一束;和将该线束与连续供给的金属护套材料片对准。然后,将线束压紧成大致圆柱形形状;以及用金属护套材料片进行包覆,由此,压紧的活性金属线束形成包芯线的芯体,其中,芯体具有比连续供给的细长活性金属线股中的每一股明显更大的直径。 | ||||||
| 7 | Wire drawing method | US14422729 | 2013-07-31 | US09884356B2 | 2018-02-06 | Arnaud Verleene; Sébastien Noel |
| A process for drawing a steel wire, in which the wire has a carbon content by weight C of 0.4%≦C≦0.74%, includes an uninterrupted series of drawing steps. The drawing steps draw the wire from a diameter d′ to a diameter d, with d′ and d being expressed in mm, and with a true strain ε′ of the steel wire being given by ε′=2×ln(d′/d), with ε′>4. | ||||||
| 8 | Multi-layered structure and method | US14323163 | 2014-07-03 | US09498142B2 | 2016-11-22 | Jami A. Hafiz; Stefan Schibli; Jens Troetzschel |
| One aspect relates to a method for producing a layered structure, including providing a substrate, forming a first layer onto at least part of the substrate, the first layer being a first polymer, and forming a second layer onto at least part of the first layer, the second layer being a second polymer. The substrate and the second layer are electrically conductive and the first layer is insulating or the substrate and the second layer are insulating and the first layer is electrically conductive. Forming each of the first and second layers includes forming such that each layer is no more than one tenth of the thickness of the substrate. | ||||||
| 9 | Strand cladding of calcium wire | US12140636 | 2008-06-17 | US07803465B2 | 2010-09-28 | Dominick M. Colavito |
| A cored reactive metal wire is formed by gathering at least three strands of continuously fed elongated reactive metal wires into a bundle and aligning the bundle of wires with a continuously fed sheet of metal sheath. The bundle of wires is then compacted into a generally cylindrical shape and clad with the sheet of metal sheath whereby the compacted bundle of reactive metal wires form a core of the cored wire in which the core has a substantially larger diameter than each of the strands of continuously fed elongated reactive metal wires. | ||||||
| 10 | Annular metal cord and endless metal belt | US11989711 | 2006-11-09 | US07775028B2 | 2010-08-17 | Hiroshi Sasabe; Hitoshi Wakahara; Yuichi Sano; Kenichi Okamoto; Koji Kato; Masaki Saito |
| An annular metal cord includes an annular core portion and an outer layer portion. The annular core portion is formed by connecting together both ends of a first strand material which is made up of six twisted first metal filaments. The outer layer portion is formed by winding spirally a second strand material which is made up of six twisted second metal filaments around the annular core portion. The second strand material is wound at a predetermined winding angle relative to a center axis of the annular core portion, and a winding initiating end portion and a winding terminating end portion are connected together. As a result, the breaking strength of the annular metal cord can be made large, and the production thereof can be facilitated. | ||||||
| 11 | Metal cladding of wire by atomization spraying | US670040 | 1984-11-13 | US4595600A | 1986-06-17 | James C. Keeven; Donald R. Felin; Henry J. Fisher |
| A method and apparatus for uniformly cladding a metal wire with a coating of a second metal is provided. The metal wire to be coated is preheated in a non-oxidizing atmosphere to a temperature slightly less than the melting point of the metal coating. The metal coating is present as a molten metal in an atomization chamber. A source of preheated, pressurized, non-oxidizing gas is utilized to inject such gas into spray nozzles. Each spray nozzle also receives molten metal that is drawn into and atomized in the nozzle. The molten metal is thusly sprayed onto the metal wire moving through the atomization chamber. | ||||||
| 12 | Method for forming composite wire | US30584672 | 1972-11-13 | US3820232A | 1974-06-28 | BRENAN R |
| THERE IS DISCLOSED A METHOD FOR PRODUCING A COMPOSITE WIRE HAVING AN OUTER SHEATH OF COPPER AND AN INNER CORE IOF A METAL LIC MATERIAL DISSIMILAR TO COPPER WHEREIN THE EXTERNAL SURFACE OF THE CORE IS CLEANED, COATED WITH A RELATIVE THIN COATING OF COPPER AND INSERTED INTO THE COPPER SHEATH. THE SHEATH ITSELF IS CLEANED INTERNALLY PRIOR TO THE INSERTION WHEREUPON BOTH COREAND SHEATH ARE DRAWN THROUGH A REDUCING DIE WHICH SUBSTANTIALLY REDUCES THE CROSS-SECTIONAL AREA OF THE SHEATH.
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| 13 | Composite rod or wire | US26137672 | 1972-06-09 | US3810287A | 1974-05-14 | FISTER J; PRYOR M; WINTER J |
| A composite, preferably rod or wire, having a first component core of aluminum or an aluminum alloy clad with a second component of copper or a copper alloy, wherein a third component diffusion barrier of nickel, cobalt or an alloy thereof is sandwiched between said first and said second component and bonded thereto.
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| 14 | Method of borating dumet wire | US8975926 | 1926-02-20 | US1647620A | 1927-11-01 | HALL ROY D |
| 15 | Island | US441885D | US441885A | 1890-12-02 | ||
| 16 | MULTI-LAYERED STRUCTURE AND METHOD | EP15731046.7 | 2015-06-23 | EP3164875A1 | 2017-05-10 | HAFIZ, Jami; SCHIBLI, Stefan; TRÖTZSCHEL, Jens |
| One aspect relates to a method for producing a layered structure, including providing a substrate, forming a first layer onto at least part of the substrate, the first layer being a first polymer, and forming a second layer onto at least part of the first layer, the second layer being a second polymer. The substrate and the second layer are electrically conductive and the first layer is insulating or the substrate and the second layer are insulating and the first layer is electrically conductive. Forming each of the first and second layers includes forming such that each layer is no more than one tenth of the thickness of the substrate. | ||||||
| 17 | ALUMINUM FOIL BASED HOSE | EP08846464.9 | 2008-09-30 | EP2232120A1 | 2010-09-29 | BAXI, Nikhil; GUESS, Paul Alan; DIANETTI, Eugene, A. |
| An ultra low permeability fluid member for conveying a fluid (e.g., a hose, tube, etc.) having a metal vapor barrier layer (22) formed around an inner tube (14). The metal vapor layer (22) is formed from one or more metal strips (40a, 40b) having edge portions (44) that are bonded so as to seal the vapor barrier layer (22) preventing permeation of vapor. | ||||||
| 18 | ANNULAR METAL CORD AND ENDLESS METAL BELT | EP06832452 | 2006-11-09 | EP1953293A4 | 2010-02-17 | SASABE HIROSHI; WAKAHARA HITOSHI; SANO YUICHI; OKAMOTO KENICHI; KATO KOJI; SAITO MASAKI |
| 19 | Method for making coated metallic cord | EP02020905.2 | 2002-09-18 | EP1295985A1 | 2003-03-26 | Miyazaki, Shinichi, c/o Sumitomo Rubber Ind. Ltd.; Toda, Osamu, c/o Sumitomo Rubber Industries, Ltd.; Sano, Yuichi, c/o Sumitomo Electric Tochigi Co.Ltd |
A method for making a metallic cord made up of one or more metallic wires comprises: making at least two layers of at least two metallic elements including copper and zinc on the surface of a base wire; heating the layers to cause the metallic elements thermodiffusion to transform into a primary alloy layer; making a layer of copper on the primary alloy layer; drawing the wire provided with the primary alloy layer and outer copper layer into a metallic wire through dies so that the outer copper layer is diminished during passing through the dies, and a secondary alloy layer is formed as a result of transformation of the primary alloy layer and the outer copper layer which is caused by frictional heat during passing through the dies. |
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| 20 | ワイヤ引き抜き方法 | JP2017231506 | 2017-12-01 | JP2018083231A | 2018-05-31 | ヴェルレーヌ アルノー; ノエル セバスチャン |
| 【課題】機械的強度が高く、しかも特に腐食に耐性のある軽量の金属補強体を提供する。 【解決手段】鋼鉄ワイヤを引き抜く方法が、0.4%≦C≦0.74%であるような炭素重量含有量Cを有するワイヤに適用される。本方法は、mm単位で表した直径d’から直径dまでの前記ワイヤの途切れのない一連の引き抜き工程(7001から700m)を含み、真歪ε’=2ln(d’/d)がε’>4であるようなものである。 【選択図】図2 |
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