Improved tensile plasticity of bulk metallic glasses by heightening microstructural heterogeneity and energy state

Metallic Materials Pub Date : 2021-01-01 DOI:10.4149/km_2021_3_181
Yu-bai Ma, L. Mei, X. Cui, Fangqiou Zu
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引用次数: 1

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 dificulty 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. K e y w o r d s: bulk metallic glasses, tensile plasticity, high energy, microstructural heterogeneity
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通过提高组织非均质性和能态来改善大块金属玻璃的拉伸塑性
大块金属玻璃(bmg)在室温下受单轴拉伸载荷时通常以脆性方式失效。在本工作中,我们发现在高能玻璃中制备的高组织非均质性可以明显提高bmg的宏观拉伸塑性。这种独特的结构使得地层能量较低,剪切带难以传播,从而产生可检测的屈服和一定的拉伸塑性。该研究拓宽了克服脆性的途径,对bmg的结构应用具有重要意义。金属玻璃:大块金属玻璃,具有拉伸塑性、高能量、显微组织非均质性
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Metallic Materials
Metallic Materials
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