Decoding flow unit evolution upon annealing from fracture morphology in metallic glasses

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• 作者：M. Gao ; ^{gaomeng10@hotmail.com} ; X.F. Cao ; D.W. Ding ; B.B. Wang ; W.H. Wang ; ^{whw@iphy.ac.cn}
• 关键词：Flow unit ; Structural relaxation ; Typical fracture morphology evolution ; Shear transformation zone ; Crack tip plastic zone ; Metallic glasses
• 刊名：Materials Science and Engineering: A
• 出版年：2017
• 出版时间：16 February 2017
• 年：2017
• 卷：686
• 期：Complete
• 页码：65-72
• 全文大小：1176 K
• 卷排序：686

文摘

The intrinsic correlation between the fracture morphology evolution and the structural heterogeneity of flow units in a typical Zr52.5Ti5Cu17.9Ni14.6Al10 (vit105) metallic glass (MG) upon annealing was investigated. By systematically tuning the annealing time at temperature below the glass transition temperature, a series of dimple-like fracture morphology were obtained, which is the unique fingerprint-like pattern for every annealing state. Based on the structural relaxation model of flow units, the evolution of the typical dimple sizes, the largest and smallest dimple size, with annealing were well fitted. Then the evolution of flow unit density was estimated from the fracture morphology evolution, which displays the same evolution trend with that measured from thermal relaxation. A stochastic dynamic model considering the interaction of activated flow units was proposed to analyze the effect of the initial flow unit density and the flow unit interaction intensity on the dynamic evolution of dimple distribution. Our work may provide a novel scheme to investigate the structural fingerprint information on flow units from fracture morphology, and enlighten the microscopic structural origin of the ductile-to-brittle transition during structural relaxation in MGs.