2023
DOI: 10.1002/advs.202300131
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The Crystallization of Disordered Materials under Shock Is Governed by Their Network Topology

Abstract: When the shock load is applied, materials experience incredibly high temperature and pressure conditions on picosecond timescales, usually accompanied by remarkable physical or chemical phenomena. Understanding the underlying physics that governs the kinetics of shocked materials is of great importance for both physics and materials science. Here, combining experiment and large‐scale molecular dynamics simulation, the ultrafast nanoscale crystal nucleation process in shocked soda‐lime silicate glass is investi… Show more

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References 62 publications
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