Formation of columnar lamellar colony grain structure in a high Nb-TiAl alloy by electron beam melting
Formation of columnar lamellar colony grain structure in a high Nb-TiAl alloy by electron beam melting
The grain morphology and texture control in electron beam melted (EBM) Ti-47Al-8Nb γ-TiAl alloy is considered. The EBM process window to obtain a columnar lamellar colony (CLC) grain structure was defined following a critical assessment of thermal gradient and liquid-solid interface velocity by using numerical simulation. Experimentally, an epitaxial grain growth during solidification of Ti-47Al-8Nb has been realised by using the optimum EBM parameter sets. The length of the CLC grain structure reached up to ∼600 μm (compared to the powder layer thickness of 70 μm). The texture analysis and phase identification performed using electron backscatter diffraction (EBSD) provided important insights in understanding the solidification and phase transformation processes during the EBM fabrication. It was found that the solidification path for EBM high Nb-TiAl alloy involves the high-temperature α-phase field (i.e. L+β→α and α→α2+γ phase transformation processes). The epitaxial growth of prior β grains and the anchoring effect of residual B2-phase are very likely to be responsible for the formation of CLC microstructure.
Kan, W.
3d3cc3e8-7f08-4710-a68f-530151b22321
Chen, B.
be54a9a8-da2a-4e6f-ae0e-0b076be87daf
Peng, H.
8ce2eebc-6e14-4008-aab7-9051b11fce09
Liang, Y.
842db753-ffc0-46fb-a1e0-be8bdf4d4ad6
Lin, J.
b0d23b5d-ba93-44f3-8f1d-b3a1fa09eb99
18 August 2019
Kan, W.
3d3cc3e8-7f08-4710-a68f-530151b22321
Chen, B.
be54a9a8-da2a-4e6f-ae0e-0b076be87daf
Peng, H.
8ce2eebc-6e14-4008-aab7-9051b11fce09
Liang, Y.
842db753-ffc0-46fb-a1e0-be8bdf4d4ad6
Lin, J.
b0d23b5d-ba93-44f3-8f1d-b3a1fa09eb99
Kan, W., Chen, B. and Peng, H.
,
et al.
(2019)
Formation of columnar lamellar colony grain structure in a high Nb-TiAl alloy by electron beam melting.
Journal of Alloys and Compounds, 809, [151673].
(doi:10.1016/j.jallcom.2019.151673).
Abstract
The grain morphology and texture control in electron beam melted (EBM) Ti-47Al-8Nb γ-TiAl alloy is considered. The EBM process window to obtain a columnar lamellar colony (CLC) grain structure was defined following a critical assessment of thermal gradient and liquid-solid interface velocity by using numerical simulation. Experimentally, an epitaxial grain growth during solidification of Ti-47Al-8Nb has been realised by using the optimum EBM parameter sets. The length of the CLC grain structure reached up to ∼600 μm (compared to the powder layer thickness of 70 μm). The texture analysis and phase identification performed using electron backscatter diffraction (EBSD) provided important insights in understanding the solidification and phase transformation processes during the EBM fabrication. It was found that the solidification path for EBM high Nb-TiAl alloy involves the high-temperature α-phase field (i.e. L+β→α and α→α2+γ phase transformation processes). The epitaxial growth of prior β grains and the anchoring effect of residual B2-phase are very likely to be responsible for the formation of CLC microstructure.
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Accepted/In Press date: 1 August 2019
e-pub ahead of print date: 2 August 2019
Published date: 18 August 2019
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Local EPrints ID: 489898
URI: http://eprints.soton.ac.uk/id/eprint/489898
ISSN: 0925-8388
PURE UUID: 8707a637-86d9-4568-be47-aeff48d700e6
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Date deposited: 07 May 2024 16:41
Last modified: 08 May 2024 02:08
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Author:
W. Kan
Author:
B. Chen
Author:
H. Peng
Author:
Y. Liang
Author:
J. Lin
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