铸造Ti-46Al-8Ta合金经过专门设计的组合热处理,实现了晶粒细化.对晶粒细化的Ti-46Al-8Ta合金开展了在700℃大气环境中的热暴露5000h的热稳定性评定.采用光学显微镜、扫描电镜、透射电镜、X射线衍射等技术研究晶粒细化工艺以及热暴露对合金组织的影响,并进行了室温拉伸性能测试.研究发现,铸造Ti-46Al-8Ta合金经热等静压和α单相区固溶+空冷,以及随后的双相区退火能获取晶粒细小的“旋绕态”全片层组织.在700℃长期大气热暴露后,该细化组织发生明显的晶团融合、粗化,并生成出相当数量的B2(ω)和γ新相,导致屈服强度和塑性下降.
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