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    • 6. 发明申请
    • SYSTEM FOR HIGH SPEED CENTRIFUGAL WELDING
    • 高速离心焊接系统
    • WO03026829A2
    • 2003-04-03
    • PCT/US0230698
    • 2002-09-26
    • TECHNOLOGY INC HHOFFMAN STEVE E
    • HOFFMAN STEVE E
    • B23K20/00B23K20/14B23K28/00B23K31/02B24B31/02B23K
    • B24B31/02B23K20/00B23K20/14B23K28/003B23K31/025
    • An apparatus is disclosed for performing high speed welding of two or more materials. The apparatus includes an outer vessel having an inner surface and a central axis. At least one inner vessel is positioned within the outer vessel and adapted to receive at least two materials to be subjected to a bonding or welding process. A drive system causes the inner vessel to rotate with respect to the outer vessel. The apparatus is designed to inhibit the formation of an oxidation layer on the materials during rotation. In one embodiment, the oxidation layer is inhibited by creating a vacuum within the inner vessel. In another embodiment, the inner vessel is filled with a gas which inhibits formation of an oxide layer on the materials. A method for high speed welding is also disclosed.
    • 公开了一种用于执行两种或更多种材料的高速焊接的装置。 该装置包括具有内表面和中心轴线的外容器。 至少一个内部容器定位在外部容器内并且适于容纳至少两种待进行粘合或焊接过程的材料。 驱动系统使内部容器相对于外部容器旋转。 该设备被设计成在旋转期间抑制材料上氧化层的形成。 在一个实施方案中,通过在内容器内产生真空来抑制氧化层。 在另一个实施例中,内部容器填充有阻止在材料上形成氧化物层的气体。 还公开了一种用于高速焊接的方法。
    • 7. 发明申请
    • MULTILAYERED METAL LAMINATE AND PROCESS FOR PRODUCING THE SAME
    • 多层金属层压板及其制造方法
    • WO02032660A1
    • 2002-04-25
    • PCT/JP2001/008756
    • 2001-10-04
    • B23K20/00B23K20/04B23K20/14B32B15/01H05K3/02H05K3/06B23K20/16H05K1/03H05K3/46
    • H05K3/025B23K20/04B32B15/01H05K3/062H05K2201/0355H05K2201/0361H05K2203/0384H05K2203/068Y10T428/12Y10T428/12438Y10T428/12896Y10T428/12979
    • An adhesive-free multilayered metal laminate having a given thickness which is obtained by bonding a metal sheet having a thin metal film on a surface thereof to a metal foil without using an adhesive; and a process for continuously producing the laminate. The process comprises the steps of: setting a metal sheet on a reel for metal sheet unwinding; setting a metal foil on a reel for metal foil unwinding; unwinding the metal sheet from the metal sheet-unwinding reel and activating a surface of the metal sheet to thereby form a first thin metal film on the metal sheet surface; unwinding the metal foil from the metal foil-unwinding reel and activating a surface of the metal foil to thereby form a second thin metal film on the metal foil surface; and press-bonding the activated surface of the first thin metal film to that of the second thin metal film so that the first thin metal film formed on the metal sheet is in contact with the second thin metal film formed on the metal foil.
    • 具有给定厚度的无粘合剂的多层金属层压体,其通过在其表面上将不具有金属薄膜的金属薄片接合而不使用粘合剂而获得; 以及连续制造层压体的方法。 该方法包括以下步骤:将金属片设置在用于金属板退绕的卷轴上; 在金属箔退绕卷轴上设置金属箔; 从金属板退绕卷轴退绕金属片并激活金属片的表面,从而在金属片表面上形成第一薄金属膜; 从金属箔退绕卷轴退绕金属箔并激活金属箔的表面,从而在金属箔表面上形成第二薄金属膜; 并且将第一薄金属膜的活化表面压接到第二薄金属膜的活化表面,使得形成在金属片上的第一薄金属膜与形成在金属箔上的第二薄金属膜接触。
    • 8. 发明申请
    • METHOD OF PRODUCING A MULTILAYER CELLULAR STRUCTURE
    • 生产多层细胞结构的方法
    • WO01000349A1
    • 2001-01-04
    • PCT/RU2000/000252
    • 2000-06-26
    • B21D47/04B21D26/055B23K20/14B23K101/02B21D47/00
    • B21D26/055
    • The invention relates to the treatment of metals by pressure and to welding thereof by pressure. It is directed towards a method of manufacturing a multilayer cellular structure from materials capable of superplastic deformations, consisting of: joining sheet blanks of a filler made from titan alloy by means of welds that follow predetermined patterns; air-tightening the hollow between such blanks; inserting these blanks between sheet blanks of a skin; effecting forming through regulated pressure of a working medium; and solid-phase joining. To improve the quality of solid-phase joining the manufacturing is effected in two steps within a temperature range T1-Tp.t. where T1 is a temperature not exceeding the temperature of aging of tempered titan alloys, preferably 550 DEG C, and Tp.t. is the temperature of full polymorph transformation of the titan alloy. On the first step, the forming is made in such a way as to obtain a half-finished product with ready cells, and a physical contact is achieved between the joined surfaces of the sheet blanks. On the second step, the half-finished product is deformed with a degree of deformation epsilon of the joined sheet blanks. The grain size in the sheet blanks of the filler and/or of the skin is selected to meet the equation epsilon > epsilon min, where epsilon min is a minimal degree of deformation required to ensure the grain-boundary creep in the joining zone.
    • 本发明涉及通过压力处理金属和通过压力对其进行焊接。 它涉及一种由能够超塑性变形的材料制造多层多孔结构的方法,该方法包括:通过遵循预定图案的焊缝将由钛合金制成的填料的板坯接合; 在这种坯料之间的空心空气密封; 将这些毛坯插入皮肤的片状毛坯之间; 通过工作介质的调节压力进行成型; 和固相接合。 为了提高固相接合的质量,制造在T1-Tp.t的温度范围内分两步进行。 其中T1是不超过回火钛合金的温度的温度,优选550℃,Tp.t。 是钛合金完全多晶型转变的温度。 在第一步骤中,以这样的方式进行成型,以获得具有准备好的电池的半成品,并且在片状坯料的接合表面之间实现物理接触。 在第二步骤中,半成品随着接合片坯的变形ε变形。 选择填料和/或皮肤的板坯中的晶粒尺寸以满足方程εεεmin,其中εmin是确保接合区域中的晶界蠕变所需的最小变形程度。