Effects of minor alloying on the mechanical properties of Al based metallic glasses
V Jambur and C Tangpatjaroen and J Xi and J Tarnsangpradit and M Gao and H Sheng and JH Perepezko and I Szlufarska, JOURNAL OF ALLOYS AND COMPOUNDS, 854, 157266 (2021).
DOI: 10.1016/j.jallcom.2020.157266
Minor alloying is widely used to control mechanical properties of metallic glasses (MGs). The present understanding of how a small amount of alloying element changes strength is that the additions lead to more efficient packing of atoms and increased local topological order, which then increases the barrier for shear transformations and the resistance to plastic deformation. Here, we discover that minor alloying can improve the strength of MGs by increasing the chemical bond strength alone and show that this strengthening is distinct from changes in topological order. The results were obtained using Al-Sm based MGs minor alloyed with transition metals (TMs). The addition of TMs led to an increase in the hardness of the MGs which, however, could not be explained based on changes in the topological ordering in the structure. Instead we found that it was the strong bonding between TM and Al atoms which led to a higher resistance to shear transformation that resulted in higher strength and hardness, while the topology around the TM atoms had no influence on their mechanical response. This finding demonstrates that the effects of topology and chemistry on mechanical properties of MGs are independent of each other and that they should be understood as separate, sometimes competing mechanisms of strengthening. This understanding lays a foundation for design of MGs with improved mechanical properties. (C) 2020 Elsevier B.V. All rights reserved.
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