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Stress corrosion cracking hydrogen

Toh, T. and Baldwin, W. M., "Ductility of Steel with Vaiying Concentrations of Hydrogen, Stress Corrosion Cracking and Embrittlement, W. D. Robertson, Ed., John Wiley and Sons, New York, 1956, pp. 176-186. [Pg.339]

Figure 2.9 Typical hydrogen stress corrosion cracking. (Reproduced with permission from Analog Luis Orozco.)... Figure 2.9 Typical hydrogen stress corrosion cracking. (Reproduced with permission from Analog Luis Orozco.)...
The Institute has many-year experience of investigations and developments in the field of NDT. These are, mainly, developments which allowed creation of a series of eddy current flaw detectors for various applications. The Institute has traditionally studied the physico-mechanical properties of materials, their stressed-strained state, fracture mechanics and developed on this basis the procedures and instruments which measure the properties and predict the behaviour of materials. Quite important are also developments of technologies and equipment for control of thickness and adhesion of thin protective coatings on various bases, corrosion control of underground pipelines by indirect method, acoustic emission control of hydrogen and corrosion cracking in structural materials, etc. [Pg.970]

Cracking was caused by stress-corrosion cracking (see Chap. 9, Stress-Corrosion Cracking ) involving hydrogen sulfide and/or moist sulfur dioxide. The sulfur entered the cooling water stream through process leaks, which were repaired. [Pg.95]

In water solutions containing hydrogen sulfide, austenitic steels fail by stress corrosion cracking when they are quenched and tempered to high strength and hardness (above about Rockwell C24). [Pg.256]

Cracking mechanisms in which corrosion is implicated include stress corrosion cracking, corrosion fatigue, hydrogen-induced cracking and liquid metal embrittlement. Purely mechanical forms of cracking such as brittle failure are not considered here. [Pg.894]

Erosion —corrosion, fretting corrosion, impingement attack, cavitation damage stress corrosion cracking, hydrogen cracking, corrosion fatigue... [Pg.12]

Stress Corrosion Cracking and Hydrogen Embrittlement of Iron Base Alloys, NACE, Houston, Texas, (1975)... [Pg.148]

Wilde, B. E. and Kim, C. D., The R61e of Hydrogen in the Mechanism of Stress-corrosion Cracking of Austenitic Stainless Steel in Hot Chloride Media , Corrosion, 28, 350 (1972) Lin, F. and Hochman, R. F., Electrochemical Study of Stress-corrosion Cracking of Ti 8-1-1 Alloy and NaCl Solutions , Corrosion, 28, 182 (1972)... [Pg.198]

Parkins, R. N., from Stress Corrosion Cracking and Hydrogen Embrittlement of Iron Base Alloys, Edited by R. W. Staehle, J. Hochmann, R. D. McCright and J. E. Slater, NACE, Houston, p601, (1977)... [Pg.1194]

The above simple concepts need to be modified and expanded to allow discussion of stress-corrosion cracking of stainless steels in general, especially as the role of hydrogen in assisting crack growth must be accounted for. [Pg.1197]


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See also in sourсe #XX -- [ Pg.23 ]




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