Takeshi Sato

Refereed Papers

  1. Takeshi Sato, Yanan Gong, and Ronald G. Larson*, "Testing the Ability of the Slip-Spring Model to Describe Constraint Release Effects Using Experimental Linear and Nonlinear Rheology", Macromolecules, published online.
  2. Yumi Matsumiya, Takeshi Sato, Quan Chen, and Hiroshi Watanabe*, "Rouse Analysis of Nonlinear Rheology of Unentangled Polymer Melts under Fast Shear: Viscoelastic Response to Superposed Oscillatory Strain", Macromolecules, 56, 2930–2938 (2023).
  3. Souta Miyamoto, Takeshi Sato, and Takashi Taniguchi*, "Stretch-orientation-induced reduction of friction in well-entangled bidisperse blends: a dual slip-link simulation", Rheol. Acta, 62, 57-70 (2023).
  4. Takeshi Sato, Yumi Matsumiya, and Hiroshi Watanabe*, "Experimental study of phase separation in dynamically asymmetric unentangled polymer blend", J. Chem. Phys., 157, 224908 (2022).
  5. Yumi Matsumiya, Takeshi Sato, Quan Chen, and Hiroshi Watanabe*, "Rheo-dielectric Behavior of Unentangled Poly(butylene oxide): Preliminary Evaluation of Non-equilibrium Parameters at the Onset of Nonlinearity", Nihon Reoroji Gakkaishi (J. Soc. Rheol. Jpn.), 50, 371-385 (2022).
  6. Takeshi Sato and Ronald G. Larson*, "Nonlinear Rheology of Entangled Wormlike Micellar Solutions Predicted by A Micelle-Slip-Spring Model", J. Rheol., 66, 639-656 (2022).
  7. Takeshi Sato, Yumi Matsumiya, and Hiroshi Watanabe*, "Rheo-Dielectrics and Diffusion of Type-A Rouse Chain under Fast Shear Flow: Method of Evaluation of Non-equilibrium Parameters", Nihon Reoroji Gakkaishi (J. Soc. Rheol. Jpn.), 50, 253-268 (2022).
  8. Takeshi Sato*, "Modeling Techniques for the Rheology of Wormlike Micellar Solutions", Nihon Reoroji Gakkaishi (J. Soc. Rheol. Jpn.), 50, 9-13 (2022).
  9. Takeshi Sato, Youngdon Kwon, Yumi Matsumiya, and Hiroshi Watanabe*, "A Constitutive Equation for Rouse Model Modified for Variations of Spring Stiffness, Bead Friction, and Brownian Force Intensity Under Flow", Phys. Fluids, 33, 063106 (2021).
  10. Hiroshi Watanabe*, Yumi Matsumiya, and Takeshi Sato, "Revisiting Nonlinear Flow Behavior of Rouse Chain: Roles of FENE, Friction-Reduction, and Brownian Force Intensity Variation", Macromolecules, 54, 3700-3715 (2021).
  11. Takeshi Sato and Takashi Taniguchi*, "Multiscale Simulation of the Flows of a Bidisperse Entangled Polymer Melt", Nihon Reoroji Gakkaishi (J. Soc. Rheol. Jpn.), 49, 87-95 (2021).
  12. Yuji Hamada, Takeshi Sato, and Takashi Taniguchi*, "Multiscale simulation of a polymer melt flow between two coaxial cylinders under nonisothermal conditions", Mathematics in Engineering, 3(6), 1-23 (2021).
  13. Hiroshi Watanabe*, Yumi Matsumiya, and Takeshi Sato, "Nonlinear Rheology of FENE Dumbbell with Friction-Reduction: Analysis of Brownian Force Intensity through Comparison of Extensional and Shear Viscosities", Nihon Reoroji Gakkaishi (J. Soc. Rheol. Jpn.), 48, 259-269 (2020).
  14. Takeshi Sato, Soroush Moghadam, Grace Tan, Ronald G. Larson*, "A slip-spring simulation model for predicting linear and nonlinear rheology of entangled wormlike micellar solutions", J. Rheol., 64, 1045-1061 (2020).
  15. Naoki Seryo, Takeshi Sato, John. J. Molina, Takashi Taniguchi*, "Learning the constitutive relation of polymeric flows with memory", Phys. Rev. Research, 2, 033107 (2020).
  16. Takeshi Sato*, "A Review on Transport Phenomena of Entangled Polymeric Liquids", Nihon Reoroji Gakkaishi (J. Soc. Rheol. Jpn.), 48, 1-14 (2020).
  17. Takeshi Sato and Takashi Taniguchi*, "Rheology and Entanglement Structure of Well-Entangled Polymer Melts: A Slip-Link Simulation Study", Macromolecules, 52, 3951-3964 (2019).
  18. Takeshi Sato, Kohei Harada, and Takashi Taniguchi*, "Multiscale Simulations of Flows of a Well-Entangled Polymer Melt in a Contraction–Expansion Channel", Macromolecules, 52, 547-564 (2019).
  19. Takeshi Sato and Takashi Taniguchi*, "Multiscale simulations for entangled polymer melt spinning process", J. Non-Newtonean Fluid Mech., 241, 34-42 (2017).
  20. Takeshi Sato, Kazuhiro Takase, and Takashi Taniguchi*,"Multiscale Simulation of Polymer Melt Spinning by Using the Dumbbell Model", Nihon Reoroji Gakkaishi (J. Soc. Rheol. Jpn.), 44, 265-280 (2016).

Conferences (From 2017)

Under construction.