Session Details
[S5]S5 Creation of Materials by Super-Thermal Field III: New Developments in Materials Science through Additive Manufacturing(2)
Thu. Sep 18, 2025 9:00 AM - 12:25 PM JST
Thu. Sep 18, 2025 12:00 AM - 3:25 AM UTC
Thu. Sep 18, 2025 12:00 AM - 3:25 AM UTC
Room B(B11 1st floor Building B)
Chair:Yoshitaka Adachi, Takayuki Shiraiwa
※表示の講演時間には質疑応答時間も含みます。
(質疑応答時間5分、基調講演と招待講演は5~10分)
(質疑応答時間5分、基調講演と招待講演は5~10分)
[S5.16][Keynote Lecture] Microdynamics in and around the Melt Pool of Metallic Materials during Laser Melting and Solidification Process
*MORISHITA Kohei1, Uesugi Kentaro2, Yasuda Hideyuki3 (1. Kyushu Univ., 2. JASRI, 3. Kyoto Univ.)
[S5.17]In-situ Observation and Digital Twin Analysis of Melting and Solidification Behavior under Laser Beam Irradiation
*MIYAWAKI Rei1, FUKUSHIMA Kishin, OKUGAWA Masayuki2, MORISHITA Kohei3, KOIZUMI Yuichiro2 (1. Univ. Osaka, 2. Univ. Osaka, 3. Kyushu Univ.)
[S5.18]Investigation of powder surface emissivity for quality improvement in additive manufacturing processes
*Chiba Takemi1, yim Seungkyun2, yamazaki masahiro1, wakoh kimio1, sato tsukasa1, yanagihara keiji1, chiba akihiko1, Yamanaka Kenta2 (1. NICHe Tohoku University, 2. IMR Tohoku University)
[S5.19]Monitoring of Keyhole Defects during LPBF Process using Acoustic Emission
*SHIRAIWA Takayuki1, Fabien Briffod2, Louis Galiègue1 (1. The University of Tokyo, 2. NIMS)
break
[S5.20][Keynote Lecture] Digital transformation of AM research
*ADACHI Yoshitaka1, Chen TaTe1, Maruyama Daichi1, Sun Fei1 (1. Nagoya Univ.)
[S5.21][Keynote Lecture] Simulation of solidification microstructure evolution during additive manufacturing in SUS316L stainless steel using multi-phase-field model and Bayesian data assimilation
*Yamanaka Akinori1, Segawa Masahito2 (1. Tokyo Univ. of Agri. and Tech., 2. CTC)
[S5.22]High-performance three-dimensional multi-phase-field simulation of dendritic polycrystalline microstructure formation during rapid solidification
*SAKANE Shinji1, Takaki Tomohiro1 (1. Kyoto Institute of Technology)
[S5.23]Importance analysis of material properties and heat source conditions on thermal field during laser powder bed fusion process using machine learning
*AOYAMA Kairi1, SUZUKI Asuka2, KOBASHI Makoto2 (1. Nagoya University: Engineering (Master), 2. Nagoya University: Engineering)