TY - JOUR
T1 - The effects of cold rolling orientation and water chemistry on stress corrosion cracking behavior of 316L stainless steel in simulated PWR water environments
AU - Chen, Junjie
AU - Lu, Zhanpeng
AU - Xiao, Qian
AU - Ru, Xiangkun
AU - Han, Guangdong
AU - Chen, Zhen
AU - Zhou, Bangxin
AU - Shoji, Tetsuo
N1 - Funding Information:
This work was supported by the International Cooperative Project sponsored by the Science and Technology Commission of Shanghai Municipality , China ( 1352072120 0), the Specialized Research Fund for the Doctoral Program of Ministry of Education , China ( 20123108110021 ), and the National Natural Science Foundation of China ( 51571138 ). The support from the Instrument Analytical and Research Center, Shanghai University is acknowledged.
Publisher Copyright:
© 2016 Elsevier B.V.
PY - 2016/4/15
Y1 - 2016/4/15
N2 - Stress corrosion cracking behaviors of one-directionally cold rolled 316L stainless steel specimens in T-L and L-T orientations were investigated in hydrogenated and deaerated PWR primary water environments at 310 °C. Transgranular cracking was observed during the in situ pre-cracking procedure and the crack growth rate was almost not affected by the specimen orientation. Locally intergranular stress corrosion cracks were found on the fracture surfaces of specimens in the hydrogenated PWR water. Extensive intergranular stress corrosion cracks were found on the fracture surfaces of specimens in deaerated PWR water. More extensive cracks were found in specimen T-L orientation with a higher crack growth rate than that in the specimen L-T orientation with a lower crack growth rate. Crack branching phenomenon found in specimen L-T orientation in deaerated PWR water was synergistically affected by the applied stress direction as well as the preferential oxidation path along the elongated grain boundaries, and the latter was dominant.
AB - Stress corrosion cracking behaviors of one-directionally cold rolled 316L stainless steel specimens in T-L and L-T orientations were investigated in hydrogenated and deaerated PWR primary water environments at 310 °C. Transgranular cracking was observed during the in situ pre-cracking procedure and the crack growth rate was almost not affected by the specimen orientation. Locally intergranular stress corrosion cracks were found on the fracture surfaces of specimens in the hydrogenated PWR water. Extensive intergranular stress corrosion cracks were found on the fracture surfaces of specimens in deaerated PWR water. More extensive cracks were found in specimen T-L orientation with a higher crack growth rate than that in the specimen L-T orientation with a lower crack growth rate. Crack branching phenomenon found in specimen L-T orientation in deaerated PWR water was synergistically affected by the applied stress direction as well as the preferential oxidation path along the elongated grain boundaries, and the latter was dominant.
KW - 316L stainless steel
KW - Cold rolling
KW - Crack branching
KW - Pressurized water reactor primary water
KW - Rolling orientation
KW - Stress corrosion cracking
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U2 - 10.1016/j.jnucmat.2016.01.018
DO - 10.1016/j.jnucmat.2016.01.018
M3 - Article
AN - SCOPUS:84957035430
SN - 0022-3115
VL - 472
SP - 1
EP - 12
JO - Journal of Nuclear Materials
JF - Journal of Nuclear Materials
ER -