The stress corrosion cracking behavior of austenitic stainless steels in boiling magnesium chloride solutions |
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Authors: | Osama M. Alyousif Rokuro Nishimura |
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Affiliation: | a Department of Mechanical Engineering, Kuwait University, P.O. Box 5969, Safat 13060, Kuwait b Department of Applied Materials Science, 1-1, Gakuen-cho, Sakai, Osaka Prefecture University, Osaka 599-8531, Japan |
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Abstract: | The change in the mechanism of stress corrosion cracking with test temperature for Type 304, 310 and 316 austenitic stainless steels was investigated in boiling saturated magnesium chloride solutions using a constant load method. Three parameters (time to failure; tf, steady-state elongation rate; lss and transition time at which a linear increase in elongation starts to deviate; tss) obtained from the corrosion elongation curve showed clearly three regions; stress-dominated, stress corrosion cracking-dominated and corrosion-dominated regions. In the stress corrosion cracking-dominated region the fracture mode of type 304 and 316 steels was transgranular at higher temperatures of 416 and 428 K, respectively, but was intergranular at a lower temperature of 408 K. Type 310 steel showed no intergranular fracture but only transgranular fracture. The relationship between log lss and log tf for three steels became good straight lines irrespective of applied stress. The slope depended upon fracture mode; −2 for transgranular mode and −1 for intergranular mode. On the basis of the results obtained, it was estimated that intergranular cracking was resulted from hydrogen embrittlement due to strain-induced formation of martensite along the grain boundaries, while transgranular cracking took place by propagating cracks nucleated at slip steps by dissolution. |
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Keywords: | A. Austenitic stainless steels A. Magnesium chloride solution C. Steady-state elongation rates C. Stress corrosion cracking C. Hydrogen embrittlement |
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