所属：Graduate School of Engineering Science, The University of Osaka

概要：To uncover the relationship between the structural and energy of twist grain boundaries　(TWGBs) in α-Iron, the atomic structure and formation energy of TWGBs were investigated using molecular statics in conjunction with neural network interatomic potentials (NNIPs). We charted the grain boundary energy of TWGBs for (100), (110), and (111) terminations, achieving concordance between NNIP predictions and DFT calculations. Exploring dislocation networks in TWGBs with small twist angles unrevealed distinct network patterns. Squared and hexagonal dislocation networks patterns in (100) and (110) TWGBs were obtained, mirroring experimental observations in BCC metals. Significantly, (111) TWGBs with small twist angles exhibited a novel 3D dislocation pattern, a phenomenon uncovered for the first time. The novel 3D dislocation pattern was validated through principal component analysis, NNIP ensemble model, and further crossing verification using other independent machine learning potentials. Our work sheds light on the uncharted territories of dislocation networks in certain configurations.

論文掲載,発表実績:
（学術雑誌掲載論文）

• Fan-Shun Meng, Shuhei Shinzato, Shihao Zhang, Kazuki Matsubara, Jun-Ping Du, Peijun Yu, Wen-Tong Geng, Shigenobu Ogata, "A highly transferable and efficient machine learning interatomic potentials study of α-Fe-C binary system", Acta Materialia, Vol. 284, 120408, December 2024
• Fan-Shun Meng, Jiu-Hui Li, Shuhei Shinzato, Kazuki Matsubara, Wen-Tong Geng, Shigenobu Ogata, "Formation of three-dimensional dislocation networks in α-iron twist grain boundaries: Insights from first-principles neural network interatomic potentials", Computational Materials Science, Vol. 253, 113812, May 2025