Studies on reactive sintering behavior of milled nano Mo/Si3N4 powder mixture

Attempts are made to fabricate Si3N4-MoSi2 in situ composites by reactive milling and reactive sintering of milled powders. 10 hours of milling Mo and Si3N4 powder mixtures shows the substantive increase in reactivity, which reaches to maximum after 30 hours of milling. The milling however even up t...

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Veröffentlicht in:	Reviews on advanced materials science 2003-12, Vol.5 (4), p.337-342
Hauptverfasser:	Singh, S, Godkhindi, M M, Krishnarao, R V, Murthy, B S, Mukunda, P G
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creator	Singh, S Godkhindi, M M Krishnarao, R V Murthy, B S Mukunda, P G
description	Attempts are made to fabricate Si3N4-MoSi2 in situ composites by reactive milling and reactive sintering of milled powders. 10 hours of milling Mo and Si3N4 powder mixtures shows the substantive increase in reactivity, which reaches to maximum after 30 hours of milling. The milling however even up to 104 hours does not by itself lead to the formation of MoSi2 phase. The pyrolysis of milled powder mixture with varying amount of sintering aid in the temperature range of 1000-1400DGC indicates that MoSi2 phase forms only at 1400DGC in argon, whereas 1350DGC in vacuum. SEM analysis of milled and pyrolised samples shows uniform distribution of 0.5-1 micron size MoSi2 in Si3N4 matrix. Longer hours of milling often leads to formation of SiC and it also played by large amount of WC contaminations.
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title	Studies on reactive sintering behavior of milled nano Mo/Si3N4 powder mixture
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