1 Low cycle fatigue behaviors of type 316LN austenitic stainless steel in 310 o C deaerated water - fatigue life and dislocation structure development Hyunchul Cho a , Byoung Koo Kim a,b , In Sup Kim a , Changheui Jang a * a Department of Nuclear and Quantum Engineering, Korea Advanced Institute of Science and Technology, 373-1 Guseong-dong, Yuseong-gu, Daejeon 305-701, Republic of Korea b Corporate R&D Institute, Doosan Heavy Industries and Construction Co., Ltd., 555 Gwigok-dong, Changweon, Gyeongnam 641-792, Republic of Korea * Corresponding author, Tel.: +82-42-869-3824; Fax: +82-42-869-3810. E-mail address: chjang@kaist.ac.kr . Abstract The low cycle fatigue tests for type 316LN stainless steel were performed in 310 o C deaerated water at various strain amplitudes and strain rates. The primary hardening was observed in all test conditions. It was found that the increase of bulk dislocation density and the interaction between mobile dislocations and atoms, which occur under the dynamic strain aging condition, were responsible for the primary hardening. On the other hand, the secondary hardening occurred distinctly for 0.4 %/s and 0.4 %. For that specific condition, the corduroy contrast resulted from pinned dislocations was observed at the crack tip. The secondary hardening may be associated with the corduroy contrast. The dislocation structure and fatigue surface revealed the characteristic feature of the hydrogen-induced cracking. Through this study, the reduction in fatigue life and the enhancement of decreasing fatigue life with a decreasing strain rate in 310 o C deaerated