Improved tensile plasticity of bulk metallic glasses by heightening microstructural heterogeneity and energy state
MA, Y.-B., MEI, L., CUI, X., ZU, F.-Q.
vol. 59 (2021), no. 3, pp. 181 - 186
DOI: 10.4149/km_2021_3_181
Abstract
 Bulk metallic glasses (BMGs) generally fail in a brittle manner at room temperature upon uniaxial tensile loading. In the present work, we disclose that high microstructural heterogeneity fabricated in high energy glass could obviously enhance the macroscopic tensile plasticity of BMGs. Such a unique structure can promote the lower formation energy and the di?culty to propagate shear bands, resulting in detectable yielding and certain tensile plasticity. This work may widen the pathway to overcoming the brittleness and is believed to aid in structural application of BMGs greatly. Key words
bulk metallic glasses, tensile plasticity, high energy, microstructural heterogeneity ![[open article.pdf]](full_yes.gif) Full text (767 KB)
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