研究了形变温度、形变量以及双重时效工艺对Ti-10V-2Fe-3Al合金显微组织和力学性能的影响.结果表明:随着形变温度的提高,在时效过程中析出的次生α相含量逐渐增加,合金强度升高;然而,当形变温度高于相变点时,初生α相对β晶粒的钉扎作用明显减弱,使得β晶粒迅速长大,导致合金的拉伸塑性明显下降;次生α相的体积分数主要决定于形变温度,因此应变量对Ti-10V-2Fe-3Al合金力学性能的影响较小.此外,相对于单重时效工艺,由于在低温时效(300℃×8h)时发生ω→α转变,为次生α相提供了均匀的形核点,Ti-10V-2Fe-3Al合金在低温-高温双重时效工艺中获得了更加均匀、细小的α+β显微组织,使得拉伸强度获得比较大的提高.
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