セッション詳細
[I3]Innovative evaluation techniques for hydrogen entry and hydrogen trapping -IV
2024年9月18日(水) 9:00 〜 17:05
会場13(1階 共C102)
Y. Sugawara [Shimane Univ.], A. Ooi [Tokyo Inst. Tech.], T. Igarashi [JAEA], S. Ajito [Tohoku Univ.]
[Int.-17]Chances and challenges in hunting hydrogen
○A.W. Hassel (Johannes Kepler Univ. Linz)
[Int.-18]Difference of C and N effect on hydrogen entry and diffusivity in austenitic stainless steels
○S.-J. Kim1, K.-S. Kim1, J.-H. Kang2 (1.POSTECH, 2.Yeungnam Univ.)
[Int.-19]Effect of mechanical loading on the hydrogen diffusion behavior in tempered martensitic steel
○S. Ajito1, H. Kakinuma1, T. Hojo2, M. Koyama1, T. Hara1, T. Omura3, E. Akiyama1 (1.Tohoku Univ., 2.Tohoku Gakuin Univ., 3.Nippon Steel)
[Int.-20]Influences of lattice defect and crystal orientation on hydrogen diffusion in pure iron
○Y. Todaka, N. Adachi, Y. Abe, Y. Ishii, S. Wada, S. Kagawa (Toyohashi Univ. of Tech.)
[Int.-21]Scanning Kelvin probe techniques for mapping effective local hydrogen activity and permeation rates at lateral high resolution and sensitivity
○M. Rohwerder (Max-Planck-Institut fur Eisenforschung GmbH)
[Int.-22]Visualization of hydrogen entry into high-strength steel during corrosion process using Mn oxide thin film
○Y. Sugawara1, M. Omoda2, S. Ootsuka2 (1.Shimane Univ., 2.JFE)
[Int.-23]Application of scanning blue-laser enhanced electrochemical microscope for evaluation of local hydrogen permeation rate of the steels
○T. Haruna, K. Nogawa, T. Sakai, Y. Hirohata (Kansai Univ.)
[Int.-24]Spatially-resolved detection of hydrogen in steel by scanning photoelectron yield spectroscopy
○K. Miyamoto, T. Yoshinobu (Tohoku Univ.)
[Int.-25]Effects of pH on local hydrogen entry behavior under NaCl droplet on Fe sheet
○H. Kakinuma, S. Ajito, M. Koyama, E. Akiyama (Tohoku Univ.)
[Int.-26]Hydrogen permeation behavior of high strength steels with Laser activation
○M. Sakairi, X. Han (Hokkaido Univ.)
[Int.-27]Effect of thiocyanate ion on hydrogen evolution reaction on steel
○A. Ooi, A. Saito, E. Tada (Tokyo Inst. of Tech.)
[Int.-28]3D impedance measurement to investigate hydrogen evolution and permeation behavior on steel
○Y. Hoshi, K. Tanaka (Nagoya Inst. of Tech.)
[Int.-29]In-situ quantitative evaluation of the hydrogen absorbed in steel plates and dependence of hydrogen content on specimen hardness
○K. Fushimi, Y. Mizushiri, Y. Fujita, H. Habazaki (Hokkaido Univ.)
[Int.-30]Computational modeling for hydrogen entry into steel materials in acidic solutions containing chloride ions
○H. Katayama, M. Kadowaki, M. Yamamoto (NIMS)
[Int.-31]Hydrogen absorption modeling using cellular automata
○T. Igarashi (JAEA)