期刊
MATERIALS & DESIGN
卷 224, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.matdes.2022.111378
关键词
gamma-TiAl; Borides; Solidification; Formation mechanism; Morphology
资金
- CAS Project for Young Scientists in Basic Research
- National Natural Science Foundation of China
- Major Special Science and Technology Project of Yunnan Province
- [YSBR-025]
- [51701209]
- [51604161]
- [202002AB080001-3]
This study investigates the relationship between B content and the morphology and crystal structure of borides in Ti-45Al-2Mn-2Nb-xB (at.%) alloys. The results show that the B content affects the shape and distribution of boride particles in the alloys.
The morphology and crystal structure of borides in Ti-45Al-2Mn-2Nb-xB (at.%) alloys containing different amount of B have been investigated to reveal the relationship between B content and boride formation. In alloys containing 0.25 at.% and 0.5 at.% B, boride particles are curved and flake-like, and are distributed at b dendrite boundaries, resulting from late nucleation and constrained by matrix during growth. Curved, ribbon-like boride particles are observed to randomly distribute in alloy containing 0.75 at.% B, and insuf-ficient behind-time supply of B atoms to the growth front is believed to be responsible for their irregularity and large curvature bending and branching. In alloys containing 1.0 at.% or higher B, straight needle/rod-like boride particles dominate, and a small number of blocky particles appear in alloys containing 1.25 at.% and 1.5 at.% B. Most boride particles are of C32-TiB2 and have their major axes along [0001] or [1 (2) over bar 10] in all alloys studied in this work, and B-f-TiB and D7(b)-Ti3B4 randomly appear in conjunction with C32-TiB2 to form intergrowths, while B27-TiB particles are free standing and only appear in alloys containing 1 at.% or higher B. (C) 2022 The Author(s). Published by Elsevier Ltd.
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