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About this Abstract
Meeting	2021 TMS Annual Meeting & Exhibition
Symposium	Bulk Metallic Glasses XVIII
Presentation Title	Effect of Porosity Level on the Mechanical Properties of Bicontinuous Nanoporous Metallic Glasses
Author(s)	Chang Liu, Paulo Branicio
On-Site Speaker (Planned)	Chang Liu
Abstract Scope	Bicontinuous nanoporous metallic glasses, as newly developed materials, take advantage of the unique characteristics of metallic glasses (MGs) and open-cell nanoporous structures. We investigate the mechanical properties of bicontinuous nanoporous Cu₆₄Zr₃₆ MG using tensile loading molecular dynamics simulations. By varying the porosity of the material in the range 0.2 < φ < 0.7, we find that for low porosity level, φ < 0.2, closed-cell pores enhance the MG ductility. An increase in the porosity level (φ > 0.2) to generate an open-cell bicontinuous topology induces a brittle-to-ductile transition, shifting the deformation and failure mechanism from a single critical shear-band to necking and rupture of ligaments. A scaling law based on the tensile deformation of the ligaments and the Gibson-Ashby theory can account for the dependence of Young’s modulus with porosity.
Proceedings Inclusion?	Planned:
Keywords	Computational Materials Science & Engineering, Modeling and Simulation, Mechanical Properties

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