采用了特殊的热处理工艺,分别获得了不同晶粒度和不同片层厚度的显微组织的全片层TiAl合金,并在不同的应变速率下,对这些合金进行了室温单向拉伸实验.结果表明:在一定的应变速率下,晶粒度的降低和片层厚度的增加都会导致全片层TiAl合金室温塑性的增加.在确定的显微组织下,应变率的降低,会导致全片层TiAl合金室温塑性的增加.而当应变率较低、晶粒较大、片层较厚时,试样中容易萌生微裂纹.微裂纹多数在软取向的晶粒中出现.具有小晶粒、厚片层显微组织的全片层TiAl合金在较低的应变速率下将会具有较好的塑性.
参考文献
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