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      저자 : 이초롱 ( Cholong Lee ) (검색결과 1 건)
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        SA508 Gr.3 상용 원자로용기강의 두께방향 미세조직 변화가 인장 및 충격특성에 미치는 영향

        홍석민 ( Seokmin Hong ),이초롱 ( Cholong Lee ),김민철 ( Min-chul Kim ),이봉상 ( Bong-sang Lee ) 대한금속ㆍ재료학회 2017 대한금속·재료학회지 Vol.55 No.11

        In this study, the effects of microstructural variations in heavy-section reactor pressure vessel (RPV) steels on tensile and Charpy impact properties were investigated. Two PRV blocks, OPR1000 and APR1400 (ORV, ARV) were taken from the archive materials used in Korea standard nuclear power plants. Test specimens were sampled from five different positions at intervals of 1/4 thickness from the inner surface to the outer surface. The chemical contents in the ORV and ARV were homogenous, and macro-segregation problems were not observed. In the ORV, the microstructure was fully composed of bainite structure. The bainite lath was fine at the surface but it coarsened toward the center. In the ARV, coarse-lath upper bainite was formed at the surfaces but polygonal ferrite was observed toward the center. Variations in cooling rate due to the material’s thickness caused changes in microstructure along the thickness during the water quenching heat treatment. The larger-sized ARV did not cool down quickly enough to create a fully bainitic microstructure. Tensile strength and Charpy impact properties tended to improve toward the surfaces. Compared to the ORV, the ARV showed higher strength and lower energy transition temperature (ETT). These variations in mechanical properties were related to the microstructure variations. Surface regions with the fine-lath bainite structure and small carbides showed better properties than the center region. The ARV, having smaller grain size and homogeneous carbide distribution, also showed better properties than the ORV. This is because the ARV was fabricated using an advanced steelmaking process, the VCD + Si + Al methods. The addition of Al resulted in the formation of AlN precipitates at high temperature, and suppressed the grain growth of austenite. (Received June 12, 2017; Accepted July 7, 2017)

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