Effect of Aspect Ratio on the Evolution of Shear Bands in Zr61.7Al8Ni13Cu17Sn0.3 Bulk Metallic Glass
来源期刊:JOURNAL OF MATERIALS SCIENCE TECHNOLOG2017年第1期
论文作者:Wenli Ma Yuanli Xu Bo Shi Jiangong Li
文章页码:99 - 104
摘 要:Zr61.7Al8Ni13Cu17Sn0.3 bulk metallic glass samples with different aspect ratios in the range of 0.25–2.25 were deformed by compression,and the effect of aspect ratio on the evolution of shear bands was investigated.It is found that for the deformed Zr61.7Al8Ni13Cu17Sn0.3 bulk metallic glass,the average shear band spacing decreases and the shear band density increases monotonically as the aspect ratio increases from 0.25 to 2.25.A minimal average shear band spacing of 0.478 μm is achieved for the sample with an aspect ratio of 2.25.In addition,the fractions of shear bands with spacings below 100 and 50 nm are about 12.84% and 6.76%,respectively,for the sample with an aspect ratio of 2.25.The reason for the formation of a higher density of shear bands can probably be attributed to the increase of the driving force for the sample with a larger aspect ratio.
Wenli Ma,Yuanli Xu,Bo Shi,Jiangong Li
Institute of Materials Science and Engineering and MOE Key Laboratory for Magnetism and Magnetic Materials,Lanzhou University
摘 要:Zr61.7Al8Ni13Cu17Sn0.3 bulk metallic glass samples with different aspect ratios in the range of 0.25–2.25 were deformed by compression,and the effect of aspect ratio on the evolution of shear bands was investigated.It is found that for the deformed Zr61.7Al8Ni13Cu17Sn0.3 bulk metallic glass,the average shear band spacing decreases and the shear band density increases monotonically as the aspect ratio increases from 0.25 to 2.25.A minimal average shear band spacing of 0.478 μm is achieved for the sample with an aspect ratio of 2.25.In addition,the fractions of shear bands with spacings below 100 and 50 nm are about 12.84% and 6.76%,respectively,for the sample with an aspect ratio of 2.25.The reason for the formation of a higher density of shear bands can probably be attributed to the increase of the driving force for the sample with a larger aspect ratio.
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