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Researcher Information

last modified:2017/05/23

Assistant Professor TADA Kaoru

Mail

Faculty, Affiliation

Faculty of Natural System, Institute of Science and Engineering

College and School Educational Field

Division of Natural Sciences, Graduate School of Natural Science and Technology
School of Natural System, College of Science and Engineering

Laboratory

Chemical Enineering Fundamentals TEL:076-234-4805 FAX:076-234-4829

Academic Background

【Academic background(Bachelor's Degree)】
Aoyama Gakuin University 1983
【Degree】
Dr. Engineering

Career

Year & Month of Birth

Academic Society


the Japan Society of Polymer Processing

Award

Specialities

Polymer/Textile materials、Reaction engineering/Process system、Properties in chemical engineering process/Transfer operation/Unit operation、Chem. Eng. Thermodynamics

Speciality Keywords

Chem. Eng. Thermodynamics Phase Equilibria Simulation PBT

Research Themes

Computer Simulation from Acetylation to Polycondensation for Liquid Crystalline Polymer Production

In recent years, there has been an increasing demand for liquid crystal polymer (LCP) for connectors, relays, and switches, primarily in electric-electronic and information-communication related areas. In my present research, I propose a mathematical model for the series of reactions in the liquid crystal polymer production process from acetylation to polycondensation, and aim to estimate the best production conditions through simulation and the development of a new polymer.

Thermodynamics of non electrolyte solutions.

Polymer reaction process

Books

Papers

  •  Association Model and Its Representation of Phase Equilibria and Excess Enthalpies of Alcohol, Aniline and Acetonitrile Mixtures JOURNAL OF SOLUTION CHEMISTRY 29 9 815-835 2000
  •  Association Model of Fluids. Simultaneous Representation of Excess Gibbs Energies and Excess Enthalpies for Liquid Mixtures with Alkanols FLUID PHASE EQUILIBRIA 135 227-247 1997
  •  Liquid-Liquid Equilibria for Quaternary Mixtures of Water, Ethanol, and 2,2,4-Trimethylpentane with Fuel Additives FLUID PHASE EQUILIBRIA 171 115-126 2000
  •  Representation of Multicomponent Liquid-Liquid Equilibria for Aqueous and Organic Solutions Using a Modified UNIQUAC Model JOURNAL OF SOLUTION CHEMISTRY 29 5 463-488 2000
  •  Basic Analysis of the Deformation Behavior of Shape Memory Polymer ,8-1  8-2 2002/04

show all

  •  Preparation and shelf-life stability of aqueous polyurethane dispersion 216 1 229-240 2004/10
  •  Analysis of the Deformation and Recovery Behavior of Shape Memory Polymer 1-5 2003/07
  •  Influence of process conditions on bowing phenomenon in successive biaxial stretching with tenter CD-ROM N116 1453-1458 2004/06
  •  Preparation of Waterborne Polyurethanes : Effect of NCO/OH Ratio and Molecular Weight of Polyol on the Particle Size CD-ROM P1 1 2004/07
  •  Simulation of the Deformation and Recovery Behavior of Shape-memory Polymer CD-ROM AR12 1-3 2004/08
  •  Analysis of Thermal Deformation of PVC Lining in Steel Pipe CD-ROM AR17 1-3 2004/08
  •  Prediction of Bowing Phenomenon for Polyimide Film Accompanying Reactions and Removal of Solvents during Heatsetting in a Tenter AR25 1-3 2004/08
  •  Prediction of Film Elongation Behavior in Drawing Between Rolls AR26 1-3 2004/08
  •  Mesurement on Diffusion Coefficient of DMF(DMAc)-Segmented Poly-Urethane Urea System 1-2 2004/08
  •  Prediction of film elongation behavior in drawing between rolls 1-15 2004/08
  •  Phase Inversion Emulsification of an Ionomeric Polymer-Water System 1-7 2004/10
  •  Simulation of the Storage of Molten Poly(Etylene Telephthalate) 3 1-16 2005/03
  •  A Mathematical Model for Computer Simulation from Acetylation to Polycondensation for Liquid Crystalline Polymer Production K.Tada, T.Yamada, K.Kanaka and K.Tamura Proceedings of the 12th Asian Pacific Confederation of Chemical Engineering Congress (APCChE2008) 3  1-4 2008/08
  •  A Mathematical Model for Computer Simulation from Acetylation to Polycondensation for Liquid Crystalline Polymer Production K.Tada, T.Yamada, K.Kanaka Proceedings of the 10th Pacific Polymer Conference (PPC10) 368 2007/12
  •  Simulation of the Storage of Molten Poly(Etylene Terephthalate) T.Yamada, L.Hao, K.Tada, S.Konagaya International Journal of Chemical Reactor Engineering 3  1-16 2005/03
  •  Prediction for Thermal Residual Stress between Electric Wires during Reliability Assessment by Heat Cycle Test with Finit Element Analysis 18 2  149-155 2006/02
  •  Preparation of Aqueous Polyurethane Dispersions Using Aromatic Diisocyanate S. Sugano, C. Chinwanitcharoen, S. Kanoh, T. Yamada, S. Hayashi, K. Tada Macromolecular Symposia 239  51-57 2006/06
  •  Measurement of Diffusion Coefficients of Dimethyl Formamide and Dimethyl Acetamide in Segumented Poly(urethane-urea) 22. Guangzhu Li, K. Kawatake, Xin Li, T. Yamada, K. Tada, K. Katsuo, H. Ishihara Seikei-Kakou 18 7  517-523 2006/07
  •  Crystallization characteristics of PET/TiO2 Nanocomposites L.Hao, S.Konagaya, T.Yamada, K.Tada, G.Li Materials Science : An Indian Journal 2  154-160 2006/12
  •  Simulation for Dry Spinning Process of Segmented Poly(urethane-urea) Fibers G. Li, T. Yamada, K. Tada, K. Katsuo, H. Ishihara Seikei-Kakou 19 5  300-310 2007/05
  •  Dispersion of Nano TiO2 in Ethylene Glycol and Poly(ethylene terephthalate)  L. Hao, S. Konagaya, T. Yamada, K. Tada, J. Takemasa, K. Ito Composite Interfaces 17 5-7 559-570 2010/07
  •  Effect of Modified Silica Nanoparticles on the Conductivity of Conductive Polymer Composites Seikei-Kakou 28巻 2号 75-80 2016/02

Conference Presentations

Arts and Fieldwork

Patent

Theme to the desired joint research

Grant-in-Aid for Scientific Research

Classes (Bachelors)

○Fundamental Chemistry 1(2017)
○Experiments in Chemical and Biochemical Engineering(2017)
○Experiments in Chemical Engineering B(2017)
○Guide to Chemical and Biochemical Engineerings(2017)
○Experiments in Chemical Engineering A(2017)
○Basic Laboratory in Chemical and Biochemical Engineering(2017)
○Exercise in Chemical Engineering B(2017)
○Exercise in Chemical and Biochemical Engineering B(2017)
○Experiments in Chemical and Biochemical Engineering(2016)
○Fundamental Chemistry 1(2016)
○Experiments in Chemical Engineering A(2016)
○Exercise in Chemical and Biochemical Engineering B(2016)
○Basic Laboratory in Chemical and Biochemical Engineering(2016)
○Experiments in Chemical Engineering B(2016)
○Exercise in Chemical Engineering B(2016)

Classes (Graduate Schools)

○Basic Chemical Engineering A(2017)
○Basic Chemical Engineering B(2017)
○Basic Chemical Engineering A(2016)
○Basic Chemical Engineering B(2016)

International Project

International Students

Lecture themes

Others (Social Activities)

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