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)