材料科学
微观结构
钛合金
合金
同步辐射
断裂力学
强度因子
钛
复合材料
巴黎法
同步加速器
断层摄影术
冶金
裂缝闭合
光学
物理
作者
Gaoge Xue,Takashi Nakamura,Nao Fujimura,Kosuke Takahashi,Hiroyuki Oguma,Akihisa Takeuchi,Masayuki Uesugi,Kentaro Uesugi
标识
DOI:10.1016/j.engfracmech.2022.108308
摘要
Synchrotron radiation computed tomography is an emerging nondestructive method for fracture analysis in materials. Herein, the in situ small-crack growth of a beta titanium alloy, Ti–22V–4Al, was monitored by a combination of microtomography (micro-CT) and nanotomography (nano-CT). The 3D characteristics of small cracks and the corresponding stress intensity factor range (ΔK) were obtained by micro-CT; the cracks initiated at ∼10% fatigue life. In the low-ΔK regime, the scatter of the crack aspect ratio and the deviation in the crack propagation rate were significant; however, they decreased with increasing ΔK, reflecting the microstructural effect on small-crack propagation. The microstructure of the beta titanium alloy was successfully visualized by nano-CT. Consequently, the crack-surrounding-microstructure interactions evidenced that the fatigue cracks initiated from the center of the beta grain wherein the alpha-phase was less precipitated.
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