|
· Preface to the Special Issue on "Common Bases for Hydrogen Embrittlement Studies" K. Takai.....167
Keynote Paper
· Conformity between mechanics and microscopic functions of hydrogen in failure (Review) M. Nagumo.....168
Hydrogen Analysis and Characterization
· Summary of round-robin tests for standardizing hydrogen analysis procedures H. Suzuki and K. Takai.....174
· Numerical modeling of thermal desorption spectra of hydrogen: a review of thermal desorption models (Review) K. Ebihara and H. Kaburaki.....181
· Atomistic state of hydrogen trapped by vacancies and formation of H-associated vacancy clusters in Nb as observed by the channelling method (Review) K. Sakuma, N. Higami and E. Yagi.....187
Hydrogen Effects on Mechanical Properties
· Enhanced lattice defect formation associated with hydrogen and hydrogen embrittlement under elastic stress of a tempered martensitic steel T. Doshida, H. Suzuki, K. Takai, N. Oshima and T. Hirade.....198
· Microstructural and crystallographic features of hydrogen-related crack propagation in low carbon martensitic steel A. Shibata, H. Takahashi and N. Tsuji.....208
· Effect of uniform distribution of fine cementite on hydrogen embrittlement of low carbon martensitic steel plates A. Nagao, K. Hayashi, K. Oi and S. Mitao.....213
· Effect of hydrogen charging on low cycle fatigue life and its dependence on cementite morphology T. Watanabe, T. Yamashita, and Y. Tsuchida.....222
· Time-dependent triaxiality effects on hydrogen-assisted micro-damage evolution in pearlitic steel J. Toribio.....228
· Hydrogen embrittlement properties of stainless and low alloy steels in high pressure gaseous hydrogen environment (Review) T. Omura and J. Nakamura.....234
· Internal reversible hydrogen embrittlement of austenitic stainless steels based on type 316 at low temperatures L. Zhang, M. Imade, B. An, M. Wen, T. Iijima, S. Fukuyama and K. Yokogawa....240
· Effects of Ni and Cr contents on fatigue crack growth properties of SUS316-based stainless steels in high pressure gaseous hydrogen S. Ohmiya and H. Fujii.....247
· Effects of the hydrogen absorption conditions on the hydrogen embrittlement behavior of Ni-Ti superelastic alloy K. Yokoyama, A. Nagaoka and J. Sakai.....255
· Crack initiation by cathodic hydrogen charging in Nickel single crystal N. Takano and S. Kaida.....263
Hydrogen Entry and Uptake
· Hydrogen entry and its effect on delayed fracture susceptibility of high strength steel bolts under atmospheric corrosion (Review) T. Omura.....267
· Influence of low-temperature heat treatment after deformation on hydrogen entry into steel sheets Y. Toji, S. Takagi, K. Hasegawa and K. Seto.....274
· Hydrogen absorption and desorption of steel in the high strength bolt manufacturing M. Tada, K. Kikuchi, K. Tomita and T. Shiraga.....281
· Stable charging conditions for low hydrogen concentrations in steels T. Hara.....286
Evaluation of Hydrogen Embrittlement
· Evaluation of delayed fracture characteristics of high-strength bolt steels by CSRT (Review) Y. Hagihara.....292
· Delayed fracture using CSRT and hydrogen trapping characteristics of V-bearing high-strength steel Y. Hagihara, T. Shobu, N. Hisamori, H. Suzuki, K. Takai and K. Hirai.....298
· Evaluation of delayed fracture property of high strength bolt steels (Review) E. Akiyama.....307
· Hydrogen embrittlement resistance evaluation of ultra high strength steel sheets for automobiles (Review) S. Takagi, Y. Toji, M. Yoshino and K. Hasegawa.....316
· Weibull model for hydrogen-induced fracture of high strength steel M. Ohata, T. Omura and F. Minami.....323
· Application of NH4SCN aqueous solution to hydrogen embrittlement resistance evaluation of ultra- high strength steels (Note) S. Takagi and Y. Toji.....329
|