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Study on the self sustained reactions in an Al–TiO2 composite powder produced by high-energy mechanical milling

✍ Scribed by Zhiguang Liu; Stiliana Raynova; Deliang Zhang; Brian Gabbitas

Publisher
Elsevier Science
Year
2007
Tongue
English
Weight
997 KB
Volume
449-451
Category
Article
ISSN
0921-5093

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✦ Synopsis

A mixture of Al and TiO 2 powders after high-energy mechanical milling was submitted to self sustained reactions to understand the influence of mechanical activation on the kinetics and products of the reactions. It has been found that mechanical milling the powders significantly lowered the ignition temperature of the reactions by refining the Al/TiO 2 composite structure. Shorter milling time leads to the formation of more amounts of metastable phases and coarse microstructure, which is in the similar scale in the mechanical milled samples. In contrast, equilibrium phases and a fine microstructure were found in the samples having a fine Al/TiO 2 composite structure produced with a longer milling time. Mechanical milling has greatly improved the kinetics of the reactions between the two components.

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