[B2-P103] Poster 103 | Materials Research Meeting 2025 (MRM2025)

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Poster SessionB. Frontiers in Data-Driven Materials Development : [B-2] Frontiers in Data-Driven Structural Materials

[B2-P103]Poster 103

Tue. Dec 9, 2025 6:00 PM - 8:00 PM JST
Tue. Dec 9, 2025 9:00 AM - 11:00 AM UTC

Poster(G1+G2)

[B2-P103-01]Hydrogen-Induced Crack Plane Transition in BCC Iron: Insights from Neural Network Potential Atomistic Simulations

*Jiaqin Xu¹, Shigenobu Ogata¹ (1. The Univ. of Osaka (Japan))

[B2-P103-02]Bridging the Pressure Gap in Hydrogenation of CO₂ to Formate on Cu(100) by Machine-learning Molecular Dynamics Simulations

*Harry Halim¹, Wa Ode Nur Fitriah², Syahrul Ramadhani¹, Yuki Yamada¹, Fahdzi Muttaqien², Yoshitada Morikawa¹ (1. Grad. School of Engineering, The Univ. of Osaka (Japan), 2. Faculty of Natural Science and Mathematics, Bandung Institute of Technology (Indonesia))

[B2-P103-03]Interplay Between Vacancies and Hydrogen in Metals

*Shihao Zhu¹, Shihao Zhang¹, Shigenobu Ogata¹ (1. The Univ. of Osaka (Japan))

[B2-P103-04]Diffusion Model-Based Synthetic Generation of MoSiBTiC Microstructures

*Takahiro Kaneko¹, Shunto Obana², Chihana Kudo², Tomioka Shugo³, Kyosuke Yoshimi¹ (1. Department of Materials Sci., Graduate School of Eng., Tohoku Univ. (Japan), 2. Graduate School of Eng., Tohoku Univ. (Japan), 3. School of Eng., Tohoku Univ. (Japan))

[B2-P103-05]Data-Driven Analysis of Fracture Morphology–Property Relationships in Mo–Ti–C Alloys

*Xinyu Yan¹, Sheng Xu¹, Toshihiro Omori¹, Kyosuke Yoshimi¹ (1. Tohoku Univ. (Japan))

[B2-P103-06]Metallography of MoSiBTiC based on computational thermodynamics

*Taichi ABE¹, Chihana KUDO², Katsunari OIKAWA², Kyosuke YOSHIMI² (1. NIMS (Japan), 2. Tohoku Univ. (Japan))

[B2-P103-07]Adaptive Constraint Integration for Simultaneously Optimizing Crystal Structures with Multiple Targeted Properties

*Akihiro FUJII¹, Yoshitaka Ushiku², Koji Shimizu³, Lu Anh Khoa Augustin^1,4, Satoshi Watanabe¹ (1. The University of Tokyo (Japan), 2. OMRON SINIC X (Japan), 3. National Institute of Advanced Industrial Science and Technology (AIST) (Japan), 4. National Institute for Materials Science (NIMS) (Japan))

[B2-P103-08]A Materials Informatics Approach to High-Throughput Screening of Novel Quaternary Fluoride Ion Conductors

*Youngwha Park¹, Naoki Matsui¹, Kota Suzuki¹ (1. Institute of Science Tokyo (Japan))

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