2023
DOI: 10.3390/ma16103779
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Development of the RF-MEAM Interatomic Potential for the Fe-C System to Study the Temperature-Dependent Elastic Properties

Abstract: One of the major impediments to the computational investigation and design of complex alloys such as steel is the lack of effective and versatile interatomic potentials to perform large-scale calculations. In this study, we developed an RF-MEAM potential for the iron-carbon (Fe-C) system to predict the elastic properties at elevated temperatures. Several potentials were produced by fitting potential parameters to the various datasets containing forces, energies, and stress tensor data generated using density f… Show more

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(2 citation statements)
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“…Potential development methodology and calculation details have been discussed in our previous publication [28]. Here, we briefly summarize the process to provide a complete picture of the framework that integrates the previous work with the ML model for elastic properties prediction.…”
Section: Potential Developmentmentioning
confidence: 99%
See 1 more Smart Citation
“…Potential development methodology and calculation details have been discussed in our previous publication [28]. Here, we briefly summarize the process to provide a complete picture of the framework that integrates the previous work with the ML model for elastic properties prediction.…”
Section: Potential Developmentmentioning
confidence: 99%
“…For both alloys, our potential was able to reproduce Young's modulus for a wide range of temperatures more accurately (i.e., closely following the experimental result) than the previously reported SMM result. Detailed results on potential verification can be found in our previous work [28]. For comparison, experimental [62] and SMM-calculated data by Tinh et al [63] are also included.…”
Section: Potential Verificationmentioning
confidence: 99%