2003
DOI: 10.1007/s11663-003-0085-y
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Kinetics of In-situ formation of AlN in Al alloy melts by bubbling ammonia gas

Abstract: In-situ processing of AlN-Al alloy composites by the gas bubbling method was investigated using ammonia as the gaseous precursor in the temperature range of 1373 to 1523 K. The products were characterized using X-ray diffraction, scanning electron microscopy, and energy-dispersive X-ray microanalysis. It was found that in-situ formation of AlN reinforcing particles was feasible by bubbling ammonia through aluminum and aluminum alloy melts. The AlN particles formed in situ were small in size and enriched in the… Show more

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Cited by 28 publications
(20 citation statements)
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“…34 h AlN in the gas bubbling method was calculated by the equation, h AlN 5 a D N 0.5 C N,i (a is constant) since the formation of AlN occurs mainly at the gas-melt interface and C N is much smaller than C Al in Al melt (surface nitridation). 6 Based on the same assumption, h AlN in the APAVN process was calculated to be about ten times higher than that in the gas bubbling method since T N was higher over 1000 K, and C N,i was about 5.6 times greater. However, it was insufficient to explain about 400 times higher specific weight gain normalized by t N in the APAVN process compared to that in the gas bubbling method.…”
Section: à2mentioning
confidence: 95%
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“…34 h AlN in the gas bubbling method was calculated by the equation, h AlN 5 a D N 0.5 C N,i (a is constant) since the formation of AlN occurs mainly at the gas-melt interface and C N is much smaller than C Al in Al melt (surface nitridation). 6 Based on the same assumption, h AlN in the APAVN process was calculated to be about ten times higher than that in the gas bubbling method since T N was higher over 1000 K, and C N,i was about 5.6 times greater. However, it was insufficient to explain about 400 times higher specific weight gain normalized by t N in the APAVN process compared to that in the gas bubbling method.…”
Section: à2mentioning
confidence: 95%
“…Since the AlN formation rate (h AlN ) in the gas bubbling method was evaluated by considering concentration and diffusion of the dissolved N in Al melt, 6,8 the predominance of N diffusion in this study was investigated by determining concentration profiles. The diffusion of N in Al melt was estimated by Fick's second law as follows:…”
Section: B Comparison Of Aln Formation Rate Between Apavn Process Anmentioning
confidence: 99%
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