期刊
ACTA MATERIALIA
卷 235, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.actamat.2022.117985
关键词
Article history; Received 2 December 2020 Revised 19 April 2022 Accepted 27 April 2022 Available online 2 June 2022
资金
- ministry of science, technology and Space, the state of Israel [5129]
In this study, the hexagonal structure of M7C3-type carbides and the occupancy of a previously considered vacant site by a carbon atom in its atomic structure were experimentally confirmed. Co-existence of two variants in the atomic structure, which explains the preference for this structure over the orthorhombic one, was also discovered. This research is significant for controlling the growth, stability, and performance of (Cr,Fe)(7)C-3 carbides.
Since the discovery of the M7C3-type carbide in 1935, it has been the subject of many studies owing to it extensive usage in wear sensitive applications. Despite the technological importance of (Cr,Fe)(7)C-3 carbides, attempts at using computational methods for tailoring its growth characteristics, stability and mechanical properties are hindered by the ambiguity associated with its atomisitic structure. The pre-sented work aims at removing the former ambiguity regarding the atomistic structure of M7C3-type carbides. To this end we utilized EBSD (electron backscattered diffraction), TEM (transmission electron microscopy) diffractions and high-resolution STEM (scanning transmission electron microscopy) imaging, gathered from 9 zone-axis of the (Cr,Fe)(7)C-3 phase formed in the as-cast AlCrFe2Ni2 high entropy alloy. Our experimental findings, supplemented by DFT calculations, indicates that only the hexagonal structure is a viable option. Additionally, we show that a carbon atom has to populate the center of a octahedral complex, a cite which was previously considered vacant. Furthermore, we demonstrate the co-existence of two variants of the newly revealed atomic structure which we believe were mistakenly identified as stacking faults in previous studies. The higher structural complexity of the newly identified structure, strengthened by the existence of spatially alternating variants, is suggested to partially justify the preference of this structure over the orthorhombic one. We believe that this study, and its like, are vital for aiding computational efforts aimed at controlling the growth, stability and performance of (Cr,Fe)(7)C-3 carbides. (C) 2022 Published by Elsevier Ltd on behalf of Acta Materialia Inc.
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