Research field (2):
Fluid engineering
, Biomedical engineering
Research keywords (1):
計算生体流体力学
Research theme for competitive and other funds (3):
2023 - 2026 直腸切除手術後における排便機能障害の力学的メカニズム解明
2022 - 2026 磁性液滴の多体制御理論構築によるマイクロ流体アクチュエータの開発
2019 - 2022 Clarification of swallowing mechanisms by numerical simulation using realistic geometry
Papers (24):
Yuto Kawabata, Shunichi Ishida, Yohsuke Imai. Overshoot of ferrofluid droplet deformation in shear flow under magnetic field. Physics of Fluids. 2025. 37. 063309
Alexandria H. Lim, Chris Varghese, Gabrielle H. Sebaratnam, Gabriel Schamberg, Stefan Calder, Armen A. Gharibans, Christopher N. Andrews, Daphne Foong, Vincent Ho, Shunichi Ishida, et al. Effect of menstrual cycle and menopause on human gastric electrophysiology. American Journal of Physiology-Gastrointestinal and Liver Physiology. 2024. 327. 1. G47-G56
Togo Hayashi, Hironori Takeda, Shunichi Ishida, Yohsuke Imai. Folding of a growing hyperelastic sheet in a viscous fluid. Physics of Fluids. 2024. 36. 5
Yuto Kawabata, Shunichi Ishida, Yohsuke Imai. Deformation and breakup of a ferrofluid droplet in shear flow under magnetic field. Physics of Fluids. 2024. 36. 3
Yusuke Asai, Shunichi Ishida, Hironori Takeda, Gakuto Nakaie, Takuya Terahara, Yasutoshi Taniguchi, Kenji Takizawa, Yohsuke Imai. A computational model of red blood cells using an isogeometric formulation with T-splines and a lattice Boltzmann method. Journal of Fluids and Structures. 2024. 125. 104081-104081
Fluid-structure interaction analysis of the spontaneous plastic deformation of the sheet in a viscous fluid
(The 12th International Conference on Multiphase Flow, Toulouse 2025)
A numerical analysis of sedimentation of a hyperelastic sheet using isogeometric boundary element method
(The 12th International Conference on Multiphase Flow 2025)