A new insight on the diffusion growth mechanism of intermetallic compounds in Al-Er system

[Display omitted] •During annealing, the growth characteristics of Al-Er intermetallic compounds are accord with layer-terraced growth.•In Al-Er system, AlEr grows by consuming Er component, the growth of Al3Er proceeds by swallowing AlEr.•The pre-exponential factor and activation energy of the Al3E...

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Published inMaterials & design Vol. 224; p. 111341
Main Authors Tang, Zhichao, Cui, Jin, Yu, Muzhi, Zhu, Weiqiang, Xu, Zhengbing, Zeng, Jianmin, Xu, Tao, Yang, Haodong, Tan, Yapeng, Yang, Bo
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2022
Elsevier
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Summary:[Display omitted] •During annealing, the growth characteristics of Al-Er intermetallic compounds are accord with layer-terraced growth.•In Al-Er system, AlEr grows by consuming Er component, the growth of Al3Er proceeds by swallowing AlEr.•The pre-exponential factor and activation energy of the Al3Er are 7.126 × 10−8 m2·s−1 and (88.4 ± 5.3) kJ·mol−1 respectively.•Al-Er diffusion couples were successfully prepared by casting cladding in the atmosphere. The diffusion growth of intermetallic compounds in Al-Er alloys are closely related to the properties of the alloys. The current work aims at explaining the dominance of Al3Er in the Al-Er alloys precipitation phases and the interface thin layer phenomenon by diffusion couple technique, estimating the parabolic growth constant and diffusion activation energy of intermetallic compound in Al-Er diffusion couples to provide theoretical guidance for the design of new Al-Er alloys. In this work, Al-Er diffusion couples were successfully prepared by casting-cladding method in the atmosphere. The growth of Al-Er intermetallic compounds at diffusion couple interface during annealing were observed and recorded by High-Temperature Laser-Scanning Confocal Microscopy at 673, 698, 723 and 748 K respectively. The results show that the growth characteristics of Al-Er intermetallic compounds were accord with layer-terraced growth during annealing. The thickness of intermetallic compound was linear with the square root of time at experimental temperature. The intermetallic compound layer was composed of Al3Er and a very thin AlEr phase. The parabolic growth constants of Al3Er phase at 673, 698, 723 and 748 K were 1.017 × 10−14, 1.609 × 10−14, 3.111 × 10−14 and 4.76 × 10−14 respectively. The activation energy of Al3Er phase was (88.4 ± 5.3) kJ/mol and the pre-exponential factor was 7.126 × 10−8 m2/s.
ISSN:0264-1275
1873-4197
DOI:10.1016/j.matdes.2022.111341