Effect of microstructure evolution of the lamellar alpha on impact toughness in a two-phase titanium alloy
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- 作者:Jianwei Xu ; Weidong Zeng ; zengwd@nwpu.edu.cn" class="auth_mail" title="E-mail the corresponding author ; Yawei Zhao ; Zhiqiang Jia
- 关键词:Ti-17 alloy ; Globularization ; Impact toughness ; Crack propagation path
- 刊名:Materials Science & Engineering A
- 出版年:2016
- 出版时间:31 October 2016
- 年:2016
- 卷:676
- 期:Complete
- 页码:434-440
- 全文大小:3807 K
文摘
The effects of the evolution of the lamellar alpha microstructure on the impact toughness of Ti-17 alloy are investigated. For this purpose, the beta-processed material is isothermally forged at 820 °C and subsequently heat treated using the combination of solid solution and aging treatment. Then the impact tests are carried out at room temperature. The corresponding microstructure and fracture surface are examined by scanning electron microscope (SEM). Microstructural observations reveal that globularization behavior is the main feature of microstructure evolution and the globularization fraction increases with the increasing of prestrain. However, globularization behavior has a negative influence on the impact toughness of Ti-17 alloy. In this work, the impact toughness have been obtained in the range of 29–55 J/cm2 via varying globularization fraction of alpha phase. A linear relationship between the impact toughness and globularization fraction can be observed though the quantitative analysis. The linear equation is expressed as A=−0.3232f+59.885. The two major reasons can be used to explain the effect of globularization fraction on the impact property of Ti-17 alloy. One explanation is that the lamellar structure can provide excellent interfacial strengthening effect, which can improve the toughness of material, and makes it not easy to fracture. On the other hand, the fracture surface of specimen with the lamellar structure has larger amplitude of ups and downs. A long crack path length will be generated during fracture process. By contrast, the fracture of specimen with the equiaxed structure presents more flat surface and shorter crack path.