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    • 2. 发明授权
    • Process for preparing metallic fibers
    • 制备金属纤维的方法
    • US06402804B1
    • 2002-06-11
    • US09688163
    • 2000-10-16
    • Dong Yik KimSung Kyun Kim
    • Dong Yik KimSung Kyun Kim
    • B22F320
    • B22F1/004
    • Disclosed is a process for preparing metallic fibers. It comprises pre-treating metal powder of a predetermined size such that finally obtained metallic fibers can be separated with ease; elongating the pre-treated metal powder at a predetermined draw ratio by use of compression molding; and separating metallic fibers from the drawn metallic material. The metallic fibers can find various applications in the electrically conducing material industries, including fillers for conducting paints, pastes and plastics, metal catalysts, electrode materials, sound-absorbing plates, and filters.
    • 公开了一种制备金属纤维的方法。 它包括预处理预定尺寸的金属粉末,使得最终获得的金属纤维可以容易地分离; 通过压缩成型使预处理的金属粉末以预定的拉伸比伸长; 并将金属纤维与拉制的金属材料分离。 金属纤维可以在电导材料工业中找到各种应用,包括用于进行涂料,糊料和塑料的填料,金属催化剂,电极材料,吸声板和过滤器。
    • 3. 发明授权
    • Nb3Al superconductor and method of manufacture
    • Nb3Al超导体及其制造方法
    • US06699821B2
    • 2004-03-02
    • US10119353
    • 2002-04-09
    • Mark K. RudziakLeszek R. MotowidloTerence Wong
    • Mark K. RudziakLeszek R. MotowidloTerence Wong
    • B22F320
    • C22C27/02B22F3/1216B22F5/12B22F2998/00B22F2998/10H01L39/2409Y10S420/901B22F3/04B22F2202/01B22F1/0003B22F3/18B22F3/20
    • A Nb3Al superconducting wire and method for fabricating the same wherein Nb and Al powders in combination, or Nb—Al alloy powders are encapsulated in a metal tube, preferably copper or copper-alloy (e.g., CuNi), and the resultant composite is processed by conventional means to fine wire. Multifilamentary composites are produced by rebundling of the powder-filled wires into metal tubes followed by conventional processing to wire of a desired size. It is required for the use of Nb and Al powders in combination that the Nb and Al powder particle size be less than 100 nm. In the use of Nb—Al alloy powders, it is preferred, but not required, that the powder particle size be similarly of a nanometer scale. The use of nanometer-scale powders is beneficial to wire fabrication, allowing the production of long wire piece-lengths. At final wire size, the wires produced by practice of the present invention are heat treated at temperatures below the melting point of copper (1083° C.), with the heat treatment causing conversion of the powder cores or filaments to the A15 superconductor Nb3Al. The resulting superconducting wires display critical superconducting properties previously achievable only by methods employing temperatures well in excess of the melting point of copper.
    • 一种Nb3Al超导线及其制造方法,其中组合的Nb和Al粉末或Nb-Al合金粉末封装在金属管中,优选铜或铜合金(例如CuNi)中,并且所得复合材料由 常规手段细线。 通过将粉末填充的线重新连接到金属管中,然后通过常规加工成所需尺寸的导线来生产多丝复合材料。 需要组合使用Nb和Al粉末,Nb和Al粉末粒度小于100nm。 在使用Nb-Al合金粉末时,优选但不是要求粉末粒径类似于纳米级。 使用纳米级粉末有利于电线制造,允许生产长的电线片长度。 在最终丝尺寸下,通过实施本发明生产的丝线在低于铜熔点(1083℃)的温度下进行热处理,热处理引起粉末芯或细丝转化为A15超导体Nb3Al。 所得到的超导线材显示出仅通过使用超过铜熔点的温度的方法才能达到的临界超导特性。
    • 7. 发明授权
    • Apparatus for continuous friction-actuated extrusion
    • 用于连续摩擦致动挤出的装置
    • US06419473B1
    • 2002-07-16
    • US09529295
    • 2000-04-11
    • Daniel J. Hawkes
    • Daniel J. Hawkes
    • B22F320
    • B21C23/005B22F3/20
    • A continuous, friction-actuated extrusion apparatus, comprised of a cylindrical first member having a circumferential groove formed in its peripheral surface. A stationary second member projects into the groove and defines a passageway between the first member and the second member, the passageway having an entry end and an exit end. A metal feeding device for feeding metal into the passageway at the entry end as the cylindrical first member rotates toward the exit end. An abutment member extends across the passageway at the exit end and at least one die orifice is located at the exit end of the passageway. At least one restriction member is located in the passageway between the orifice and the entry end, the restriction member constricting the passage for a portion thereof.
    • 一种连续的摩擦致动的挤出装置,包括在其外周表面上形成有圆周槽的圆柱形第一构件。 固定的第二构件突出到凹槽中并且在第一构件和第二构件之间限定通道,通道具有入口端和出口端。 一种金属进给装置,用于当圆柱形第一构件朝着出口端转动时,在入口端将金属供给到通道中。 邻接构件在出口端处延伸穿过通道,并且至少一个模孔位于通道的出口端处。 至少一个限制构件位于孔口和入口端之间的通道中,限制构件限制其一部分的通道。
    • 9. 发明授权
    • Pressing device for compressing metal parts, in particular chips
    • 用于压缩金属部件的压紧装置,特别是芯片
    • US06565345B1
    • 2003-05-20
    • US09341812
    • 1999-08-12
    • Helmut Schwaiger
    • Helmut Schwaiger
    • B22F320
    • B22F8/00B30B9/327Y02P10/24Y02W30/541
    • The invention relates to an extrusion device (1) for compacting metal parts, in particular shavings (3), for example made of Fe, Cu, Mg or alloys of these elements or other low melting metals or their alloys, into homogenous extrusion mouldings with at least one extrusion unit with an extrusion die (5) formed by a die housing (9) which forms a die cavity (8) and has a guide arrangement for an extrusion element (7) adjustable by a drive device (6), and with an inlet opening (28) for the shavings (3) in the die housing (9), whereby a compression channel (18) is arranged opposite a front face of the extrusion element (7) facing the mould cavity (8) and adjacent to the mould cavity (8) in the direction of a passage surface (15) for a material strand (2).
    • 本发明涉及一种用于将金属部件(特别是例如由Fe,Cu,Mg或这些元素或其它低熔点金属或它们的合金的合金)制成的金属部件(3)压制成均质的挤出模制品的挤出装置(1) 至少一个挤出单元,其具有由模具壳体(9)形成的挤出模头(5),所述模具壳体形成模腔(8)并且具有用于通过驱动装置(6)可调节的挤压元件(7)的引导装置,以及 具有用于模具壳体(9)中的刨屑(3)的入口(28),由此压缩通道(18)与挤压元件(7)的面向模腔(8)的前表面相对并且相邻 在材料股(2)的通道表面(15)的方向上延伸到模腔(8)。