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Materials Science and Technology Volume 26, 2010 - Issue 6: Applications of electron backscatter diffraction
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Short Communication

Effect of Sn addition on porosity and microstructure of products of self-propagating high temperature synthesis reaction of Al–Ti–C system

Y. X. LiCollege of Materials Science and Engineering, North University, Taiyuan, 030051, China
,
J. D. HuKey Laboratory of Automobile Materials of Ministry of Education and Department of Materials and EngineeringJilin University, Renmin Street no. 5988, Changchun 130025, China
,
H. Y. WangKey Laboratory of Automobile Materials of Ministry of Education and Department of Materials and EngineeringJilin University, Renmin Street no. 5988, Changchun 130025, China
&
Z. X GuoKey Laboratory of Automobile Materials of Ministry of Education and Department of Materials and EngineeringJilin University, Renmin Street no. 5988, Changchun 130025, China;, Email: [email protected]
Pages 745-749 | Published online: 19 Jul 2013
 
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Abstract

Effect of Sn addition on the self-propagating high temperature synthesis reaction has been investigated. The results show that Sn serves not only as a diluent but also as a reactant and reacts with Ti to form Ti6Sn5 phase. As the Sn content ranges from 6 to 15 wt-%, the combustion temperature of the system decreases and the porosity of the products is reduced, however, the size of TiC particulate decreases and the shape of TiC particulate has significantly changed in the SHS reaction products. Specially, when Sn content is over 12 wt-%, the shape of TiC particles gradually transforms from the multi-angular shape to the spherical shape. The in situ formed master alloy containing Al and Sn, as well as a large volume fraction of TiC particulates is successfully synthesised.

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