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    • 9. 发明申请
    • Method for manufacturing components with a nickel base alloy as well as components manufactured therewith
    • 用镍基合金制造部件的方法以及由其制造的部件
    • US20060280637A1
    • 2006-12-14
    • US10570984
    • 2004-09-29
    • Dirk NaumannGunnar WaltherAlexander Bohm
    • Dirk NaumannGunnar WaltherAlexander Bohm
    • B22F3/11
    • B22F7/006B22F7/02B22F2009/041B22F2998/00B22F2998/10B22F2207/01B22F9/04B22F2202/01
    • The invention relates to a method for manufacturing components with a nickel base alloy as well as to components manufactured therewith. The respective components, in particular, are to have improved mechanical properties in comparison with the conventional solutions, and are to be producible in the most differently shaped form. During the production, proceeding takes place then such that a substrate core made of nickel or a nickel base alloy, in which nickel is included with a content of at least 20 wt %, will be coated on the surface with a binding agent as well as a metal powder in which nickel is included with a content of at least 20 wt % in addition to further alloy forming elements. Subsequently, a stepped thermal treatment is carried out in which the binding agent is expelled at first, and subsequent to this sintering of the mezai powder is performed which results in alloying up a nickel substrate core and/or which develops a solid surface coating made of nickel base alloy.
    • 本发明涉及一种用于制造具有镍基合金的部件的方法以及由其制造的部件。 相应的组分特别是与常规溶液相比具有改进的机械性能,并且可以以最不同形状的形式生产。 在生产过程中,进行处理,使得由镍或镍基合金制成的基底芯(其中含有至少20重量%的镍)将用粘合剂涂覆在表面上,以及 除了进一步的合金成形元素之外,其中含有至少20重量%的含量的镍的金属粉末。 接着,进行步骤式热处理,其中粘合剂首先被排出,并且在进行该Mezai粉末的烧结之后,导致合金化镍基底芯和/或形成固体表面涂层 镍基合金。
    • 10. 发明授权
    • Metal foam body having an open-porous structure as well as a method for the production thereof
    • 具有开孔结构的金属泡沫体及其制造方法
    • US08012598B2
    • 2011-09-06
    • US10592181
    • 2005-03-08
    • Dirk NaumannGunnar WaltherAlexander Böhm
    • Dirk NaumannGunnar WaltherAlexander Böhm
    • B32F3/11
    • B22F3/114B22F2998/10B22F2999/00Y10T428/1234Y10T428/12479B22F3/1125B22F3/1017B22F2202/01
    • The invention relates to metal foam bodies having an open-porous structure as well as a method for producing thereof wherein according to the set task such metal foam bodies are to be provided which achieve an increased oxidation resistance and/or an increased corrosion resistance. With the metal foam bodies having an open-porous structure according to the invention, for such metal foam bodies within the webs of the open-porous structure there are channel shaped cavities formed as being determined by the production. At the same time, the webs and cavities will be provided with a metallic protective layer made of a material differing from the metallic starting material of the foam body or the channel shaped cavities will be filled with this material. For this, an adequate metal powder or an alloy component being included in the powder will be used which becomes liquid and forms a liquid phase respectively during thermal treatment below a temperature at which the metal of the base foam body is melting. Due to the capillary action wetting the surfaces of channel shaped cavities within the webs can be achieved such that after cooling down a metallic protective layer is forming or the channel shaped cavities are filled.
    • 本发明涉及具有开孔结构的金属泡沫体及其制造方法,其中根据设定的任务,将提供这样的金属泡沫体,其实现增加的抗氧化性和/或增加的耐腐蚀性。 对于根据本发明的具有开孔结构的金属泡沫体,对于在开孔结构的腹板内的这种金属泡沫体,存在通过生产确定的通道形空腔。 同时,纤维网和空腔将设置有由与泡沫体的金属起始材料不同的材料制成的金属保护层,或者通道形状的空腔将被该材料填充。 为此,将使用在粉末中包含的足够的金属粉末或合金成分,它们在基体泡沫体的金属熔化的温度以下的热处理期间分别成为液体并形成液相。 由于毛细作用润湿,纤维网内的通道形状空腔的表面可以实现,使得在冷却之后,形成金属保护层或填充通道形状的空腔。