High-Temperature Physical Chemistry

Contribute to decarbonization from the viewpoint of "thermophysical properties and microstructure"

Since materials that appear at high temperatures have complex microstructures, studies are conducted from the viewpoint of "thermophysical properties × microstructure. In this laboratory, process research is conducted to utilize and control the heat generated at high temperatures, such as in steel manufacturing processes, and thermophysical property research is conducted to evaluate accurately how the generated heat is transferred. In addition, research is also expanding into the fields of aerospace.

College of Engineering Department of Materials Science and Engineering / Graduate School of Engineering and Science(Master's Program) Materials Science and Engineering Course / Graduate School of Engineering and Science(Doctor's Program) Regional Environment Systems Course
Faculty Name
ENDO, Rie
Keyword
Thermophysical property,Thermal resistance,Metal,Oxide

This lab is for this SDG activity:

  • 気候変動に具体的な対策を
  • 産業と技術革新の基盤をつくろう
  • つくる責任つかう責任

STUDY FIELDS

  • Material Science
  • Physical Chemistry
  • Thermodynamics
  • Solid State Physics

FOR SOCIETY

We are dealing with the challenge from a "heat" perspective to reduce carbon emissions. In particular, high-temperature steel manufacturing processes generate large amounts of heat. Therefore, technologies are needed to utilize and control the heat.

RESEARCH THEMES

  • Thermophysical Properties of Oxides Related to High-Temperature Processes in Steel Making Process
  • Thermal management of steel manufacturing processes
  • Thermophysical property measurements for planetary explorers

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