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Abstract
An in situ 5 vol.-% TiB2/2014 composite was prepared by an exothermic reaction of K2TiF6, KBF4 and Al melts. The effect of introduction of in situ formed TiB2 particles on the squeeze-casting formability of the composite was discussed. The microstructural evolution and changes in the mechanical properties of the composite at different squeeze pressures were investigated. The results showed that a pouring temperature of 710°C, a die temperature of 200°C and a squeeze pressure of 90 MPa were found to be sufficient to get the qualified squeeze cast and maximum mechanical properties for an Al 2014 alloy. However, the pouring temperature, die temperature and squeeze pressure need to be increased to 780°C, 250°C and 120 MPa for the composite to get the qualified squeeze cast and maximum mechanical properties as a result of the effect of introduction of in situ formed TiB2 particles on the solidification process, plasticity and fluidity of the composite. The microstructural refinement, elimination of casting defects such as shrinkage porosities and gas porosities and improved distribution of TiB2 particles in the case of the composite result when pressure was applied during solidification. Compared with the gravity-cast composite, the tensile strength, yield strength and elongation of the squeeze-cast composite at 120 MPa increased by 21%, 16% and 200%.
This work is supported by the National High Technology Research and Development Program of China (863 project) (no. 2008AA03A239) and National Natural Science Foundation of China (no. 51001074). At the same time, the authors are grateful to the Instrumental Analysis Center of SJTU for help in microstructural analysis.
