Basic Information

Affiliated programs (koza)

• Graduate School of Engineering, 分子工学専攻 分子材料学講座, 助教

Professional Memberships

• AMERICAN PHYSICAL SOCIETY
• THE SOCIETY OF CHEMICAL ENGINEERS, JAPAN
• THE SOCIETY OF POLYMER SCIENCE, JAPAN
• THE SOCIETY OF RHEOLOGY, JAPAN

Academic Degree

• (Kyoto University)
• ( Kyoto University)

Academic Resume (Graduate Schools)

• 京都大学, 大学院工学研究科修士課程化学工学専攻, 修了
• 京都大学, 大学院工学研究科博士後期課程化学工学専攻, 修了

Academic Resume (Undergraduate School/Majors)

• 京都大学, 工学部工業化学科, 卒業

High School

• High School

  長野県飯田高等学校

Research History

• From Apr. 2018, To Mar. 2020

  Research Fellow DC2, Japan Society for the Promotion of Science

ID,URL

• J-Global ID

  201801013078439141

• External link

  https://tsmss-rheology.com/index_en.html

researchmap URL

• https://researchmap.jp/mss_ts

Research

Research Interests

• Simulation
• Polymer
• Soft matter
• Rheology

Research Areas

• Nanotechnology/Materials, Polymer materials
• Informatics, Computational science
• Manufacturing technology (mechanical, electrical/electronic, chemical engineering), Transfer phenomena and unit operations, Transport Phenomena

Papers

• Rouse Analysis of Nonlinear Rheology of Unentangled Polymer Melts under Fast Shear: Viscoelastic Response to Superposed Oscillatory Strain

  Yumi Matsumiya; Takeshi Sato; Quan Chen; Hiroshi Watanabe

  Macromolecules, 28 Mar. 2023, Peer-reviewed

  
• Experimental study of phase separation in dynamically asymmetric unentangled polymer blend

  Takeshi Sato; Yumi Matsumiya; Hiroshi Watanabe

  The Journal of Chemical Physics, 14 Dec. 2022, Peer-reviewed, Lead author

  
• Rheo-dielectric Behavior of Unentangled Poly(butylene oxide): Preliminary Evaluation of Non-equilibrium Parameters at the Onset of Nonlinearity

  Yumi Matsumiya; Takeshi Sato; Quan Chen; Hiroshi Watanabe

  Nihon Reoroji Gakkaishi (Journal of the Society of Rheology, Japan), Dec. 2022, Peer-reviewed

  
• Stretch-orientation-induced reduction of friction in well-entangled bidisperse blends: a dual slip-link simulation study

  Souta Miyamoto; Takeshi Sato; Takashi Taniguchi

  Rheologica Acta, 2023, Peer-reviewed

  
• Nonlinear rheology of entangled wormlike micellar solutions predicted by a micelle-slip-spring model

  Takeshi Sato; Ronald G. Larson

  Journal of Rheology, May 2022, Peer-reviewed, Lead author

  
• Rheo-Dielectrics and Diffusion of Type-A Rouse Chain under Fast Shear Flow: Method of Evaluation of Non-Equilibrium Parameters for FENE, Friction-Reduction, and Brownian Force Intensity Variation

  Takeshi Sato; Yumi Matsumiya; Hiroshi Watanabe

  Nihon Reoroji Gakkaishi (Journal of the Society of Rheology, Japan), Apr. 2022, Peer-reviewed, Lead author

  
• Modeling Techniques for the Rheology of Wormlike Micellar Solutions

  Takeshi Sato

  Nihon Reoroji Gakkaishi (Journal of the Society of Rheology, Japan), 15 Feb. 2022, Peer-reviewed, Invited, Lead author, Corresponding author

  
• A constitutive equation for Rouse model modified for variations of spring stiffness, bead friction, and Brownian force intensity under flow

  Takeshi Sato; Youngdon Kwon; Yumi Matsumiya; Hiroshi Watanabe

  Physics of Fluids, Jun. 2021, Peer-reviewed, Lead author

  
• Multiscale Simulation of the Flows of a Bidisperse Entangled Polymer Melt

  Takeshi Sato; Takashi Taniguchi

  Nihon Reoroji Gakkaishi (Journal of the Society of Rheology, Japan), 15 Apr. 2021, Peer-reviewed, Lead author

  
• Revisiting Nonlinear Flow Behavior of Rouse Chain: Roles of FENE, Friction-Reduction, and Brownian Force Intensity Variation

  Hiroshi Watanabe; Yumi Matsumiya; Takeshi Sato

  Macromolecules, 14 Apr. 2021, Peer-reviewed

  
• Multiscale simulation of a polymer melt flow between two coaxial cylinders under nonisothermal conditions

  Yuji Hamada; Takeshi Sato; Takashi Taniguchi

  Mathematics in Engineering, 2021, Peer-reviewed

  
• Nonlinear Rheology of FENE Dumbbell with Friction-Reduction: Analysis of Brownian Force Intensity through Comparison of Extensional and Shear Viscosities

  Hiroshi Watanabe; Yumi Matsumiya; Takeshi Sato

  Nihon Reoroji Gakkaishi (Journal of the Society of Rheology, Japan), Dec. 2020, Peer-reviewed

  
• A slip-spring simulation model for predicting linear and nonlinear rheology of entangled wormlike micellar solutions

  Takeshi Sato; Soroush Moghadam; Grace Tan; Ronald G. Larson

  Journal of Rheology, Sep. 2020, Peer-reviewed, Lead author

  
• Learning the constitutive relation of polymeric flows with memory

  Naoki Seryo; Takeshi Sato; John J. Molina; Takashi Taniguchi

  Physical Review Research, Jul. 2020, Peer-reviewed

  
• A Review on Transport Phenomena of Entangled Polymeric Liquids

  Takeshi Sato

  Nihon Reoroji Gakkaishi (Journal of the Society of Rheology, Japan), Feb. 2020, Peer-reviewed, Lead author, Corresponding author

  
• Rheology and Entanglement Structure of Well-Entangled Polymer Melts: A Slip-Link Simulation Study

  Takeshi Sato; Takashi Taniguchi

  Macromolecules, May 2019, Peer-reviewed, Lead author

  
• Multiscale Simulations of Flows of a Well-Entangled Polymer Melt in a Contraction–Expansion Channel

  Takeshi Sato; Kohei Harada; Takashi Taniguchi

  Macromolecules, Jan. 2019, Peer-reviewed, Lead author

  
• Multiscale simulations for entangled polymer melt spinning process

  Takeshi Sato; Takashi Taniguchi

  Journal of Non-Newtonian Fluid Mechanics, Mar. 2017, Peer-reviewed, Lead author

  
• Multiscale Simulation of Polymer Melt Spinning by Using the Dumbbell Model

  Takeshi Sato; Kazuhiro Takase; Takashi Taniguchi

  Nihon Reoroji Gakkaishi (Journal of the Society of Rheology, Japan), 2016, Peer-reviewed, Lead author

  

Misc.

• 高分子流体の移動現象：マルチスケールシミュレーションによるアプローチ

  佐藤健

  分子シミュレーション学会誌アンサンブル, Jul. 2020, Peer-reviewed, Invited

  
• マルチスケールシミュレーションで視る高分子

  佐藤健; 谷口貴志

  高分子, 2017, Invited

  
• 高分子流体のマルチスケールシミュレーション

  佐藤健; 原田浩平; 谷口貴志

  成形加工, 2016, Invited

  

Presentations

• NONLINEAR RHEOLOGY OF ENTANGLED WORMLIKE MICELLES: A SLIP-SPRING SIMULATION STUDY

  Takeshi Sato; Ronald G. Larson

  8th Pacific Rim Conference on Rheology, 18 May 2023

  
• EXPERIMENTAL STUDY ON PHASE SEPARATION DYNAMICS OF UNENTANGLED POLYMER BLEND WITH DYNAMIC ASYMMETRY

  Takeshi Sato; Yumi Matsumiya; Hiroshi Watanabe

  8th Pacific Rim Conference on Rheology, 17 May 2023

  
• 絡み合いに着目したメソスケールモデルを用いた計算レオロジーの進展

  佐藤 健

  日本レオロジー学会第50回記念年会, 12 May 2023, Invited

  
• Phase separation in dynamically asymmetric unentangled polymer blend: An experimental study

  Takeshi Sato; Yumi Matsumiya; Hiroshi Watanabe

  APS March Meeting 2023 (Virtual), 22 Mar. 2023

  
• Phase Separation Dynamics in a Dynamically Asymmetric Unentangled Polymer Blend

  佐藤健; 松宮由実; 渡辺宏

  第10回ソフトマター研究会, 21 Nov. 2022

  
• A Mesoscopic Model for Nonlinear Rheology of Entangled Wormlike Micellar Solutions

  Takeshi Sato; Ronald G. Larson

  93rd Annual Meeting Society of Rheology 2022, 11 Oct. 2022

  
• メソスケールモデルによるひも状ミセル溶液のレオロジー予測

  佐藤健

  第19回希薄溶液の流動学講演会, 14 Jul. 2022, Invited

  
• Nonlinear Rheology of Wormlike Micellar Solutions Predicted by A Slip-Spring Model

  佐藤健; Ronald G. Larson

  第49年会日本レオロジー学会, 13 May 2022

  
• Phase Separation in a Dynamically Asymmetric Unentangled Polymer Blend: An Experimental Study

  Takeshi Sato; Yumi Matsumiya; Hiroshi Watanabe

  日本レオロジー学会第48年会, 14 May 2021

  
• A Slip-Spring Simulation Model for Predicting Rheology of Entangled Wormlike Micellar Solutions

  Takeshi Sato; Soroush Moghadam, Ronald; G. Larson

  21st International Union of Materials Research Societies-International Conference in Asia, 24 Feb. 2021

  
• Multi-Scale Simulation for Flows of Entangled Polymer Melts Based on the SPH and Slip-link Models

  Takeshi Sato; Takashi Taniguchi

  International Workshop on Machine Learning for Soft Matter (MLSM2021), 10 Feb. 2021, Invited

  
• Flows of Monodisperse and Bidisperse Entangled Polymer Melts in A Contraction-Expansion Channel: A Multi-Scale Simulation Study

  Takeshi Sato; Takashi Taniguchi

  18th International Congress on Rheology (ICR2020), 14 Dec. 2020

  
• 粗視化シミュレーションによるレオロジーの予測

  佐藤健

  第120回化学研究所研究発表会, 11 Dec. 2020

  
• 絡み合いに着目した粗視化モデルによる レオロジー予測の進展

  佐藤健

  関西レオロジー研究会第79回例会, 07 Dec. 2020, Invited

  
• ひも状ミセル溶液のレオロジー予測のための粗視化モデルの構築：Slip-Springモデルによる研究

  佐藤健; S. Moghadam; G. Tan; R. G. Larson

  第68回レオロジー討論会, 22 Oct. 2020

  
• Rheology of Wormlike Micellar Solutions: A Slip-Spring Stydy

  佐藤健; Soroush Moghadam; Ronald G. Larson

  日本レオロジー学会第47年会

  
• Multi-Scale Simulation for Temperature Dependent Flows of Entangled Polymer Melts

  Takeshi Sato and Takashi Taniguchi

  The International Workshop for East Asian Young Rheologists (IWEAYR 15), 09 Jan. 2020

  
• 微粒子を含む高分子流動の解析：マルチスケールシミュレーションによるアプローチ

  佐藤健; 谷口貴志

  第67回レオロジー討論会, 16 Oct. 2019

  
• Slip-link Simulations of Well-Entangled Linear Polymer Melts under Fast Flows: Role of the Stretch/Orientation-Induced Reduction of Friction

  Takeshi Sato; Takashi Taniguchi

  Polymers in Fast Flows, Jul. 2019

  
• 高速流動下におけるからみあい高分子のダイナミクス：摩擦低減効果の影響

  佐藤健; 谷口貴志

  日本レオロジー学会第46年会, 08 May 2019

  
• Slip-link Simulations of Entangled Linear Polymer Melts under Fast Flows: Effect of the Stretch/Orientation-Induced Reduction of Friction

  Takeshi Sato; Takashi Taniguchi

  Annual European Rheology Conference 2019 (AERC 2019), 09 Apr. 2019

  
• Slip-link Simulations under Fast Flows: Effect of the Stretch/Orientation-Induced Reduction of Friction

  Takeshi Sato; Takashi Taniguchi

  APS March Meeting 2019, 05 Mar. 2019

  
• Dynamics of Entangled Polymer Melts under Fast Flows: A Slip-link Simulation Study

  Takeshi Sato; Takashi Taniguchi

  The International Workshop for East Asian Young Rheologists (IWEAYR 14), 25 Jan. 2019

  
• Relation between Macroscopic Flows in a Contraction-Expansion Channel and Dynamics of Well-Entangled Polymer Chains

  Takeshi Sato; Takashi Taniguchi

  The 9th Multiscale Materials Modeling (MMM2018), Oct. 2018

  
• Slip-linkモデルから得られた高分子鎖上のからみあい密度の解析

  佐藤健; 谷口貴志

  第66回レオロジー討論会, Oct. 2018

  
• 急縮小・急拡大流路における高分子溶融体の移動現象：マルチスケールシミュレーションによるアプローチ

  佐藤健; 谷口貴志

  化学工学会第50回秋季大会, Sep. 2018

  
• A multiscale simulation study for flows of a well-entangled polymer melt in a contraction-expansion channel

  Takeshi Sato; Takashi Taniguchi

  The 7th Pacific Rim Conference on Rheology (PRCR2018), Jun. 2018

  
• Slip-linkモデルにおけるからみあいの解析

  佐藤健; 谷口貴志

  日本レオロジー学会第45年会, May 2018

  
• Relation between Flows in Complex Geometries and the Dynamics of Entangled Polymer Chains: a Multiscale Simulation Study

  Takeshi Sato; Takashi Taniguchi

  APS March Meeting, Mar. 2018

  
• Analysis for flows of a well-entangled polymer melt in a contraction-expansion channel: a multiscale simulation study

  Takeshi Sato; Takashi Taniguchi

  The 13th International Workshop for East Asian Young Rheologists (IWEAYR-13), Jan. 2018

  
• 急縮小・急拡大流路における高分子溶融体のマクロな流動とミクロな状態の関係

  佐藤健; 谷口貴志

  第7回ソフトマター研究会, 23 Oct. 2017

  
• 急縮小・急拡大流路の高分子流動におけるマルチスケールシミュレーション -配向・からみ合いとマクロな流動の関係-

  佐藤健; 谷口貴志

  第65回レオロジー討論会, 18 Oct. 2017

  
• 急縮小・急拡大流路におけるマクロな流動とミクロな高分子状態の関係 -マルチスケールシミュレーションによるアプローチ-

  佐藤健; 谷口貴志

  第66回高分子討論会, Sep. 2017

  
• International Symposium on Advanced Soft Matter

  Takeshi Sato; Takashi Taniguchi

  International Symposium on Advanced Soft Matter, Aug. 2017

  
• 温度分布を考慮したからみ合い 高分子溶融体のマルチスケール シミュレーション

  佐藤健; 谷口貴志

  プラスチック成形加工学会第28回年次大会, Jun. 2017

  
• 高分子流体におけるマルチスケールシミュレーション法の非等温系への拡張

  佐藤健; 谷口貴志

  日本レオロジー学会第44年会, May 2017

  
• マルチスケールシミュレーション法を用いた高分子溶融体の流動解析

  佐藤健

  第35回関西レオロジー研究会修士論文発表会, Mar. 2017

  
• マルチスケールシミュレーション法を用いた溶融紡糸工程における高分子の微視的構造の解析

  佐藤健; 谷口貴志

  化学工学会第48回秋季大会, Sep. 2016

  
• Multi-scale Simulations for Spinning Process of Well Entangled Polymer Melt

  Takeshi Sato; Takashi Taniguchi

  The XVIIth International Congress on Rheology (ICR2016), Aug. 2016

  
• Multi-scale simulation for melt spinning process -Analysis of entanglement and orientation-

  Takeshi Sato; Takashi Taniguchi

  The 32nd International Conference of the Polymer Processing Society (PPS-32), Jul. 2016

  
• Slip-linkモデルを用いた分岐高分子鎖の粘弾性解析

  佐藤健; 谷口貴志

  日本レオロジー学会第43年会, May 2016

  
• 高分子流体におけるマルチスケールシミュレーション -溶融紡糸プロセスへの応用-

  佐藤健; 谷口貴志

  第6回京都若手ソフトマター研究会, 16 Mar. 2016

  
• 高分子流体のマルチスケールシミュレーション -紡糸工程における配向と絡み合いの考察-

  佐藤健; 谷口貴志

  新学術領域研究「ゆらぎと構造の協奏」第2回ソフトマター若手勉強会, 10 Mar. 2016

  
• Analysis of polymer melt spinning process by using multi-scale simulation method

  Takeshi Sato; Takashi Taniguchi

  The 11th International Workshop for East Asian Young Rheologists (IWEAYR-11), Jan. 2016

  
• マルチスケールシミュレーション法を用いた溶融紡糸工程の解析

  佐藤健; 谷口貴志

  第5回ソフトマター研究会, Dec. 2015

  
• マルチスケールシミュレーション法を用いた溶融紡糸工程の解析 -直鎖高分子の分子量分布の影響-

  佐藤健; 谷口貴志

  第63回レオロジー討論会, Sep. 2015

  
• 溶融紡糸プロセスのマルチスケールシミュレーション -分子量分布の効果-

  佐藤健; 谷口貴志

  プラスチック成形加工学会第26回年次大会, Jun. 2015

  
• 流動下における修正Rouseモデルの構成方程式

  佐藤健; Youngdon Kwon; 松宮由実; 渡辺宏

  第69回レオロジー討論会

  

Books and Other Publications

• 基礎高分子科学 演習編 第2版

  高分子学会, Contributor

  東京化学同人, Jan. 2023

  Find Kyoto University's collection of books :

  

External funds: Kakenhi

• Development of Coarse-Grained Molecular Model for Predicting Dynamics of Entangled Associating Polymers

  Grant-in-Aid for Early-Career Scientists

  Basic Section 13040:Biophysics, chemical physics and soft matter physics-related

  Kyoto University

  佐藤 健

  From 01 Apr. 2021, To 31 Mar. 2024, Granted

  絡み合い高分子系;会合・解離;界面活性剤溶液;レオロジー;粗視化モデル;シミュレーション

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-21K13893/

Education

Teaching subject(s)

• From 01 Apr. 2023, To 31 Mar. 2024

  Physical Chemistry Ib (Advanced Chemistry)

  7429, Fall, Faculty of Engineering, 2
• From 01 Apr. 2023, To 31 Mar. 2024

  Fundamental Chemical Experiments

  N308, Spring, Institute for Liberal Arts and Sciences, 2
• From 01 Apr. 2022, To 31 Mar. 2023

  Physical Chemistry Ib (Advanced Chemistry)

  7429, Fall, Faculty of Engineering, 2
• From Apr. 2021, To Mar. 2022

  Physical Chemistry Ib (Advanced Chemistry)

  Fall, 工学部

Part-time lecturer

• From 01 Apr. 2023, To 31 Mar. 2024

  物理化学Ⅰｂ（先端化学）、先端化学実験Ⅰ・Ⅱ（先端化学）

  後期6時間、通年144時間, 京都大学, 工学部
• From 19 Apr. 2022, To 31 Mar. 2023

  先端化学実験Ⅰ・Ⅱ（先端化学）

  通年144時間, 工学部
• From 01 Oct. 2022, To 31 Mar. 2023

  物理化学Ⅰｂ（先端科学）

  後期6時間, 工学部

Administration

Faculty management (title, position)

• From 01 Apr. 2021, To 31 Mar. 2022

  化学研究所広報委員会委員