Preparation of Ti-Al alloy sheet by electron beam physical vapor deposition

Ti-Al thin sheet with dimension of 450 mm×450 mm×0.2 mm was prepared by electron beam physical vapor deposition(EB-PVD) technology. The surface and cross-section pattern of as-deposited sample were studied by SEM and AFM, and then the composition and phase were analysed by XRD and EPMA. Finally, the...

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Published inTransactions of Nonferrous Metals Society of China Vol. 17; no. A01; pp. 477 - 481
Main Author 马李 赫晓东 孙跃
Format Journal Article
LanguageEnglish
Published 01.11.2007
Subjects
物理性能
电子束
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ISSN1003-6326

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Abstract Ti-Al thin sheet with dimension of 450 mm×450 mm×0.2 mm was prepared by electron beam physical vapor deposition(EB-PVD) technology. The surface and cross-section pattern of as-deposited sample were studied by SEM and AFM, and then the composition and phase were analysed by XRD and EPMA. Finally, the effect on deposit by re-evaporation of Al was explored by calculating the ratio of re-evaporating capacity with depositing capacity of Al on the substrate. The results indicate that the evaporation process with Nb addition into the molten pool makes it earlier to reach the steady-state. The existing equiaxed crystal and columnar crystal along the cross-sectional may be caused by the transformation latent heat released during the transition course of atoms from gaseous state to solid state. The effect on deposit by re-evaporation of Al can be neglected because the re-evaporating capacity of Al is far below that of the depositing capacity.
AbstractList Ti-Al thin sheet with dimension of 450 mm×450 mm×0.2 mm was prepared by electron beam physical vapor deposition(EB-PVD) technology. The surface and cross-section pattern of as-deposited sample were studied by SEM and AFM, and then the composition and phase were analysed by XRD and EPMA. Finally, the effect on deposit by re-evaporation of Al was explored by calculating the ratio of re-evaporating capacity with depositing capacity of Al on the substrate. The results indicate that the evaporation process with Nb addition into the molten pool makes it earlier to reach the steady-state. The existing equiaxed crystal and columnar crystal along the cross-sectional may be caused by the transformation latent heat released during the transition course of atoms from gaseous state to solid state. The effect on deposit by re-evaporation of Al can be neglected because the re-evaporating capacity of Al is far below that of the depositing capacity.
Author 马李 赫晓东 孙跃
AuthorAffiliation Center for Composite Material, Harbin Institute of Technology, Harbin 150001, China
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Notes microstructure
43-1239/TG
saturation vapor pressure
electron beam physical vapor deposition
Ti-Al thin sheet
re-evaporation
TG146.2
electron beam physical vapor deposition; Ti-Al thin sheet; microstructure; saturation vapor pressure; re-evaporation
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Snippet Ti-Al thin sheet with dimension of 450 mm×450 mm×0.2 mm was prepared by electron beam physical vapor deposition(EB-PVD) technology. The surface and...
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电子束
Title Preparation of Ti-Al alloy sheet by electron beam physical vapor deposition
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