On the mechanisms of environment sensitive cyclic crack growth of nuclear reactor pressure vessel steels
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Hannu Hänninen | K. Törrönen | H. Hänninen | M. Kemppainen | S. Salonen | Kari Törrönen | M. Kemppainen | Seppo Salonen | Seppo Salonen
[1] T. C. Lindley,et al. Effect of stress waveform and hold-time on environmentally assisted fatigue crack propagation inC-Mn structural steel , 1979 .
[2] P. Pumphrey. The Role of Sulfide Inclusions in Hydrogen Entry During the Exposure of Steels to Acids , 1980 .
[3] B. Tomkins,et al. Role of mechanics in corrosion fatigue , 1979 .
[4] Warren H. Bamford,et al. Some Mechanistic Observations on the Crack Growth Characteristics of Pressure Vessel and Piping Steels in PWR Environment , 1980 .
[5] W. H. Cullen,et al. A Review of Fatigue Crack Growth of Pressure Vessel and Piping Steels in High-Temperature, Pressurized Reactor-Grade Water. , 1980 .
[6] J. Scully. The interaction of strain-rate and repassivation rate in stress corrosion crack propagation , 1980 .
[7] W. H. Cullen,et al. Fatigue crack growth of A508 steel in high-temperature, pressurized reactor-grade water , 1979 .
[8] F. Loss. Structural Integrity of Water Reactor Pressure Boundary Components. , 1979 .
[9] R. Asaro,et al. Hydrogen assisted fracture of spheroidized plain carbon steels , 1981 .
[10] B. Craig. A Contribution to the Mechanism of Hydrogen Entry Into Steels in Acid Environments , 1978 .
[11] J. Hirth,et al. Effects of hydrogen on the properties of iron and steel , 1980 .