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| Format: | Preprint |
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2024
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| Online-Zugang: | https://arxiv.org/abs/2406.15722 |
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| _version_ | 1866909229469663232 |
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| author | Li, Xinxin Shang, Baoshuang Ke, Haibo Wu, Zhenduo Lu, Yang Bai, Haiyang Wang, Weihua |
| author_facet | Li, Xinxin Shang, Baoshuang Ke, Haibo Wu, Zhenduo Lu, Yang Bai, Haiyang Wang, Weihua |
| contents | Mechanical amorphization, a widely observed phenomenon, has been utilized to synthesize novel phases by inducing disorder through external loading, thereby expanding the realm of glass-forming systems. Empirically, it has been plausible that mechanical amorphization ability consistently correlates with glass-forming ability. However, through a comprehensive investigation in binary, ternary, and quaternary systems combining neutron diffraction, calorimetric experimental approaches and molecular dynamics simulation, we demonstrate that this impression is only partly true and we reveal that the mechanical amorphization ability can be inversely correlated with the glass forming ability in certain cases To provide insights into these intriguing findings, we present a stress-dependent nucleation theory that offers a coherent explanation for both experimental and simulation results. Our study identifies the intensity of mechanical work, contributed by external stress, as the key control parameter for mechanical amorphization, rendering the ability to tune this process. This discovery not only unravels the underlying correlation between mechanical amorphization and glass-forming ability but also provides a pathway for the design and discovery of new amorphous phases with tailored properties. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2406_15722 |
| institution | arXiv |
| publishDate | 2024 |
| record_format | arxiv |
| spellingShingle | Stress-tunable abilities of glass forming and mechanical amorphization Li, Xinxin Shang, Baoshuang Ke, Haibo Wu, Zhenduo Lu, Yang Bai, Haiyang Wang, Weihua Materials Science Mechanical amorphization, a widely observed phenomenon, has been utilized to synthesize novel phases by inducing disorder through external loading, thereby expanding the realm of glass-forming systems. Empirically, it has been plausible that mechanical amorphization ability consistently correlates with glass-forming ability. However, through a comprehensive investigation in binary, ternary, and quaternary systems combining neutron diffraction, calorimetric experimental approaches and molecular dynamics simulation, we demonstrate that this impression is only partly true and we reveal that the mechanical amorphization ability can be inversely correlated with the glass forming ability in certain cases To provide insights into these intriguing findings, we present a stress-dependent nucleation theory that offers a coherent explanation for both experimental and simulation results. Our study identifies the intensity of mechanical work, contributed by external stress, as the key control parameter for mechanical amorphization, rendering the ability to tune this process. This discovery not only unravels the underlying correlation between mechanical amorphization and glass-forming ability but also provides a pathway for the design and discovery of new amorphous phases with tailored properties. |
| title | Stress-tunable abilities of glass forming and mechanical amorphization |
| topic | Materials Science |
| url | https://arxiv.org/abs/2406.15722 |