研究了Ti-22Al-20Nb-7Ta合金的显微组织和力学性能,为优化合金的塑性(特别是室温塑性)和强度,采用了多种热机械处理(TMP)工艺.结果表明,合金显微组织与热机械处理工艺密切相关.通过热机械处理可有效地控制合金中α2,O和B2相的形貌,分布状况及相对含量进而获得了具有高的室温及高温屈服强度和优良塑性的O相合金.在(α2+B2+O)和(O+B2)相区热变形及在(O+B2)相区的固溶和时效处理获得的三相复合显微组织具有最佳的力学性能.Ti-22Al-20Nb-7Ta合金的室温屈服强度σ0.2达1200 MPa,延伸率达9.8%,650℃下σ0.2亦达970 MPa,延伸率达14%.
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