Synthesis and grain growth kinetics of in-situ FeAl matrix nanocomposites ( Ⅱ ): Structural evolution and grain growth kinetics of mechanically alloyed Fe-Al-Ti-B composite powder during heat treatment
Morphological changes, structural evolutions and grain growth kinetics of mechanically alloyed(MAed) Fe50Al50, Fe42.5Al42.5Ti5B10 and Fe35Al35Ti10B20 (mole fraction, %) powders were investigated by XRD and SEM, when being isothermally annealed at 1 073-1 373 K. The effect of different Ti and B addit...
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Published in | Transactions of Nonferrous Metals Society of China Vol. 18; no. 1; pp. 66 - 71 |
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Main Author | |
Format | Journal Article |
Language | English |
Published |
2008
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Subjects | |
Online Access | Get full text |
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Summary: | Morphological changes, structural evolutions and grain growth kinetics of mechanically alloyed(MAed) Fe50Al50, Fe42.5Al42.5Ti5B10 and Fe35Al35Ti10B20 (mole fraction, %) powders were investigated by XRD and SEM, when being isothermally annealed at 1 073-1 373 K. The effect of different Ti and B addition on the grain growth of FeAI phase was also discussed. The results show that the nanocrystalline FeAI and in-situ TiB2/FeAl nanocomposite powders can be synthesized by subsequent heat treatment. Besides the relaxation of crystal defects and lattice stress, the transformation from Fe-based solid solution into B2-FeAl and TiB2 occurs upon heating of the MA-processed alloys. Although the grain growth takes place, the grain sizes of both FeAl and TiB2 are still in nanometer scale. The activation energies for the nanocrystalline FeAl growth in the three alloys are calculated to be 534.9, 525.6 and 1 069.6 kJ/mol respectively, according to kinetics theory of nanocrystalline growth. Alloys with different TiB2 contents exhibit unequal thermal stability. The presence of higher content TiB2 plays significant role in the impediment of grain growth. |
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Bibliography: | composites TG15 FeAl; composites; heat treating; structural evolution; grain growth kinetics 43-1239/TG grain growth kinetics FeAl heat treating structural evolution |
ISSN: | 1003-6326 |