期刊
MATERIALS
卷 16, 期 13, 页码 -出版社
MDPI
DOI: 10.3390/ma16134829
关键词
TiAl alloys; directional solidification; lamellar orientation; seed crystal; solidification parameters
By using directional solidification technology, the plasticity and strength of TiAl alloy at room temperature and high temperatures can be effectively improved. However, ensuring the lamellar orientation is parallel to the growth direction poses various difficulties. This paper reviews two fundamental thoughts for lamellar orientation control: using seed crystals and controlling the solidification path. Multiple specific methods and their progress are introduced, and the advantages and disadvantages of different methods are analyzed. Novel ways of controlling the lamellar orientation and future development are also discussed.
TiAl alloys have excellent high-temperature performance and are potentially used in the aerospace industry. By controlling the lamellar orientation through directional solidification (DS) technology, the plasticity and strength of TiAl alloy at room temperature and high temperatures can be effectively improved. However, various difficulties lie in ensuring the lamellar orientation is parallel to the growth direction. This paper reviews two fundamental thoughts for lamellar orientation control: using seed crystals and controlling the solidification path. Multiple specific methods and their progress are introduced, including & alpha; seed crystal method, the self-seeding method, the double DS self-seeding method, the quasi-seeding method, the pure metal seeding method, and controlling solidification parameters. The advantages and disadvantages of different methods are analyzed. This paper also introduces novel ways of controlling the lamellar orientation and discusses future development.
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