Fe-Al Phase Formation Studied by Internal Friction during Heating ProcessSupported by the National Natural Science Foundation of China under Grant Nos. 51661032 and 51301150, the Special Program of Science and Technology New Star of Shaanxi Province under Grant No. 2013KJXX-11

We systematically investigate the internal friction properties of a Fe-(43 at.%)Al powder mixture compact during the heating process with the expectation to understand the phase formation and transition process. Three internal friction peaks are successively observed during the heating process from...

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Bibliographic Details
Published in:Chinese physics letters 2020-03, Vol.37 (3)
Main Authors: Hao, Gang-Ling, Li, Yu-Chuan, Wang, Xing-Fu, Wang, Wei-Guo, Wang, Xin-Fu, Wang, Dan, Li, Xian-Yu
Format: Article
Language:English
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Summary:We systematically investigate the internal friction properties of a Fe-(43 at.%)Al powder mixture compact during the heating process with the expectation to understand the phase formation and transition process. Three internal friction peaks are successively observed during the heating process from room temperature to 750°C, but almost completely disappear in the subsequent cooling process. Three internal friction peaks exhibit obvious measuring frequency dependence, which increases with decreasing the frequency. The first internal friction peak originates from the micro-sliding of weak bonding interface between Al particles corresponding to a recrystallization process of deformed Al particles. The second internal friction peak is attributed to a phase formation process associated with the formation of the intermediate phase Fe2Al5. The third internal friction peak is considered to result from the formation of the FeAl intermetallic compound owing to the reaction of Fe2Al5 and residual Fe initiated by a dramatic thermal explosion reaction.
ISSN:0256-307X
DOI:10.1088/0256-307X/37/3/036102