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    • 6. 发明授权
    • Method to produce titanium alloy articles with high fatigue and fracture
resistance
    • 生产具有高疲劳和抗断裂性的钛合金制品的方法
    • US4828793A
    • 1989-05-09
    • US198804
    • 1988-05-06
    • Francis H. FroesDaniel Eylon
    • Francis H. FroesDaniel Eylon
    • B22F7/06
    • B22F7/06
    • A method for producing an integral titanium alloy article having at least o regions, each region having a distinct microstructure, which comprises the steps of(a) providing a suitable mold for the article;(b) introducing a first titanium alloy into a first portion of the mold;(c) introducing a second titanium alloy in powder form into a second portion of the mold; and(d) hot compacting the first and second alloys in the mold to produce a substantially fully dense article.The second alloy may be the hydrided version of the first alloy, or may have a different overall composition from the first alloy, or may be hydrided and have a different overall composition from the first alloy.
    • 一种用于生产具有至少两个区域的整体钛合金制品的方法,每个区域具有不同的微结构,其包括以下步骤:(a)为所述制品提供合适的模具; (b)将第一钛合金引入模具的第一部分; (c)将粉末形式的第二钛合金引入模具的第二部分; 和(d)在模具中热压第一和第二合金以产生基本上完全致密的制品。 第二合金可以是第一合金的氢化形式,或者可以具有与第一合金不同的总体组成,或者可以是水合的并且具有与第一合金不同的总体组成。
    • 10. 发明授权
    • Titanium metal-matrix composites
    • 钛金属基复合材料
    • US4499156A
    • 1985-02-12
    • US477793
    • 1983-03-22
    • Paul R. SmithFrancis H. Froes
    • Paul R. SmithFrancis H. Froes
    • C22C47/20C22C49/11C22C32/00C22F1/18
    • C22C49/11C22C47/20Y10T428/12486
    • Titanium alloy composites having substantially reduced reaction zones are provided which comprise a high strength/high stiffness filament such as silicon carbide, silicon carbide-coated boron, boron carbide-coated boron and silicon-coated silicon carbide, embedded in a fine-grained titanium alloy containing at least 40 percent beta phase, less than 7 percent Al and having a beta-transus temperature below 1750.degree. F. (955.degree. C.).Also provided is a method for fabricating titanium composites which comprises mechanically working a desired titanium alloy to obtain sheetstock in a desired thickness and having a relatively fine grain size, laying up a preform and consolidating the preform under increased temperature and pressure, wherein consolidation is carried out at a temperature below the beta-transus temperature of the alloy, thereby reducing the amount of reaction zone between the filament and the alloy matrix.
    • 提供了具有显着降低的反应区的钛合金复合材料,其包括高强度/高刚度的丝,例如碳化硅,碳化硅涂覆的硼,碳化硼涂覆的硼和涂有硅的碳化硅,嵌入细粒钛合金 含有至少40%的β相,小于7%的Al,β转变温度低于1750°F(955℃)。 还提供了一种用于制造钛复合材料的方法,其包括机械加工所需的钛合金以获得所需厚度的片材并且具有相对较细的晶粒度,铺设预成型件并在增加的温度和压力下固化预成型件,其中固结 在低于合金的β-转变温度的温度下,从而减少丝与合金基体之间的反应区的量。