Effects of direct rolling deformation on the microstructure and tensile properties of the 2.5 vol% (TiBw+TiCp)/Ti composites
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- 作者:Changjiang Zhanga ; zcj0408@163.com ; Xiang Lia ; Shuzhi Zhanga ; zhshzh1984@163.com ; Lihua Chaib ; Ziyong Chenb ; Fantao Kongc ; Yuyong Chenc
- 关键词:Titanium matrix composites ; Microstructure ; Tensile properties ; TiB whiskers ; TiC particles
- 刊名:Materials Science and Engineering: A
- 出版年:2017
- 出版时间:27 January 2017
- 年:2017
- 卷:684
- 期:Complete
- 页码:645-651
- 全文大小:2951 K
- 卷排序:684
文摘
In this paper, as cast 2.5 vol% (TiBw+TiCp)/Ti composites were subjected to direct rolling down to 45%, 65% and 85% reduction in thickness in the (α+β) phase region. The microstructure evolution and tensile properties of the composites during direct rolling were investigated. The results show that increasing of the rolling deformation contributes to the refinement of primary α phase (αp) and the improvement of the distribution uniformity of TiBw and TiCp. Furthermore, both the tensile strength and elongation are significantly enhanced with increasing of the rolling deformation. As the rolling reduction reaches 85%, the 2.5 vol% (TiBw+TiCp)/Ti composites exhibit an excellent balance of strength and elongation to failure both at RT and 600 °C, which is mainly attributed to the microstructure refinement and the load-sharing effect of TiBw and TiCp. Fracture analysis shows that the fracture TiBw and TiCp followed by the ductile failure of the matrix is the failure mechanism of the composites both at RT and 600 °C.