Research field (2):
Transfer phenomena and unit operations
, Fluid engineering
Research keywords (2):
Rheology
, Chemical Engineering
Research theme for competitive and other funds (2):
2018 - 2021 Development of simultaneous measurement system for fine current and viscosity aimed at estimating the internal structure of electrorheological suspension
2014 - 2016 Aggregation/dispersion analysis of fine particles in a suspension under elongational flow for function control of polymer composites
Papers (10):
Koji Masuda, Masataka Minami. Relationship Between Viscosity and Fine Current of Electrorheological Suspension, Toward Prediction of the Inner Structure. IEEJ Transactions on Electrical and Electronic Engineering. 2021. 16. 5. 673-676
MASUDA Koji, HIDEMA Ruri, SUZUKI Hiroshi, KOMODA Yoshiyuki. Aggregation/dispersion behavior of fine particles in a suspension under elongational flow. Proceedings of The XVIIth International Congress on Rheology (ICR2016). 2016. Paper No. 5594. 2pages
MASUDA Koji, ARAKI Katsuhito, SUZUKI Hiroshi, KOMODA Yoshiyuki, HIDEMA Ruri. 0109 Aggregation/Dispersion Behavior of Fine Particles in a Suspension Flowing Through an Abrupt Contraction. Fluids engineering conference . 2015. 2015. "0109-1"-"0109-2"
Suzuki Hiroshi, Masuda Kouji, Komoda Yoshiyuki. 1602 Numerical Simulation on Fine Particle Dispersion Characteristics in a Non-Uniform Shear Flow. Fluids engineering conference . 2010. 2010. 459-460
Lectures and oral presentations (14):
An Evaluation of Relationship between Quantity and Touch of Electrorheological Suspension for Tactile Display
(Annual Conference of Fundamentals and Materials Society IEE Japan 2018)
The effect of the geometry of kneading disk on the unsteady dispersion of fine particles in a two dimensional cylinder with an elliptic rotor
(7th Pacific Rim Conference on Rheology 2018)
Aggregation/dispersion behavior of fine particles in a suspension under elongational flow
(XVIIth International Congress on Rheology 2016)
Characteristics of the Unsteady Dispersion of Fine Particles in a Cylinder with an Elliptic Rotor
(6th Pacific Rim Conference on Rheology 2014)
