摘要
TiC particle reinforced titanium alloy matrix composites with different aluminum content was prepared by the XD TM method. The constitute phase and the microstructure of the composites were studied by XRD and SEM. The results show that the calculated lattice parameter of TiC there exists a diffraction peak shift for TiC, which may be due to the vacancies of C in TiC. The stoichiometry of TiC is Ti 62 C 38 . There exist two different kinds of TiC in the composites: dendritic primary TiC and short bar shape eutectic TiC, respectively. Although TiC of macrostructure is homogeneously distributed in the matrix, the eutectic TiC of microstructure mainly segregates at the grain boundary, especially at the triangular grain boundaries. The aluminum content has a great influence on the morphology of TiC. With increasing aluminum content up to 25%, the size of TiC becomes small although it is still in dendrite or short bar shape. When the aluminum content is more than 35%, TiC is changed into thin plate or particle and the size is about 2~5 μm. [
TiC particle reinforced titanium alloy matrix composites with different aluminum content was prepared by the XD(TM) method. The constitute phase and the microstructure of the composites were studied by XRD and SEM. The results show that the calculated lattice parameter of TiC there exists a diffraction peak shift for TiC, which may be due to the vacancies of C in TiC. The stoichiometry of TiC is Ti62C38. There exist two different kinds of TiC in the composites: dendritic primary TiC and short bar-shape eutectic TiC, respectively. Although TiC of macrostructure is homogeneously distributed in the matrix, the eutectic TiC of microstructure mainly segregates at the grain boundary, especially at the triangular grain boundaries. The aluminum content has a great influence on the morphology of TiC. With increasing aluminum content up to 25%, the size of TiC becomes small although it is still in dendrite or short bar-shape. When the aluminum content is more than 35%. TiC is changed into thin plate or particle and the size is about 2 similar to5 mum.
出处
《中国有色金属学会会刊:英文版》
CSCD
2000年第6期764-768,共5页
Transactions of Nonferrous Metals Society of China
基金
Project (99JS6 15 .1.ZS6 10 2 )supportedbytheFoundationofNationalKeyLaboratoryofPrecisionHotProcessingofMetal