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Hong Hong Wang,Zhan Peng Qin,Xiang Liang Wan,Ran Wei,Kai Ming Wu,Devesh Misra 대한금속·재료학회 2017 METALS AND MATERIALS International Vol.23 No.5
Simulated heat-affected zone continuous cooling transformation diagram was developed for advanced fireresistantsteel. Over a wide range of cooling rates, corresponding to t8/5 from 6 s to 150 s, granular bainite was thedominant transformation constituent, while the morphology of less dominant martensite-austenite (M-A) constituentchanged from film-like to block-type constituent; but the hardness remained similar to the average value of 190-205 HV (0.2). The start and finish transformation temperature was high at 700 °C and 500 °C, and is different fromthe conventional high strength low alloy steels. It is believed that the high-content (0.09 wt%) of Nb may promotebainite transformation at relatively high temperatures. Martenistic matrix was not observed at high cooling rateand the film-like M-A constituent and blocky M-A constituent with thin film of retained austenite and lath martensitewere observed on slow cooling. Excellent impact toughness was obtained in the heat-affected zone with15-75 kJ/cm welding heat input.