期刊
JOURNAL OF MATERIALS RESEARCH AND TECHNOLOGY-JMR&T
卷 14, 期 -, 页码 754-764出版社
ELSEVIER
DOI: 10.1016/j.jmrt.2021.07.002
关键词
Metallic glass; Shear band transformation; Ductile to brittle transition; Size effects
资金
- Natural Science Foundation of China [51672131]
The size dependence of ductile to brittle transition in Zr-based metallic glasses was investigated through small punch test, revealing a significant difference in behavior between thin and thick samples. Two critical deformation factors, alpha(c1) and alpha(c2), were identified at sample thicknesses of 200 and 500 mm, triggering the initiation of circumferential and radial shear bands respectively. The interaction of multiple shear bands significantly enhances the ductility of samples with alpha >= alpha(c1).
The size dependence of ductile to brittle transition of Zr-based metallic glasses was systematically investigated by small punch test. It was found that the metallic glasses with thickness ranging from 50 to 700 mu m displayed an obvious transition from ductility to brittleness. Compared with thick samples, thin samples exhibit higher strength and better plasticity, which is attributed to the size-dependent transformation from soft state to hard state dominated by the deformation factor (alpha = tau/sigma). Specifically, two significant transitions in deformation behavior at sample thickness of 200 and 500 mm are attributed to two critical deformation factors of alpha(c1) and alpha(c2), which are responsible for the initiation of circumferential and radial shear bands, respectively. Specifically, only several micro-cracks can be observed on sample surface with alpha <= alpha(c2). While alpha(c1) >= alpha >= alpha(c2), multiple radial shear bands are activated and uniformly distributed on the sample surface. Further, when alpha >= alpha(c1), multiple circumferential shear bands primarily initiate under high shear stress and large number of radial and circumferential shear bands can be observed on sample surface. The initiation and interaction of multiple radial and circumferential shear bands significantly enhance the ductility of the samples with alpha >= alpha(c1). (C) 2021 The Author(s). Published by Elsevier B.V.
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