首页|Enhancement of strength and ductile-brittle transition temperature of SA508 Gr.3 low-alloy steel by controlling heat accumulation in laser powder-directed energy deposition

Enhancement of strength and ductile-brittle transition temperature of SA508 Gr.3 low-alloy steel by controlling heat accumulation in laser powder-directed energy deposition

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The safety and longevity of small modular reactors are affected by reactor pressure vessels,which are complex integral components made of SA508 Gr.3 low-alloy steel.In this study,the impacts of heat accumulation on the microstructural and mechanical characteristics(tensile properties and Charpy V-notched impact energy)of SA508 Gr.3 steel fabricated using laser powder-directed energy deposition were investigated.Rectangular samples were prepared using long raster and short raster scanning strate-gies for changing heat buildup,and the mechanical tests were conducted depending on build direction.The time-temperature profile measured at a fixed point in the long raster sample showed a lower max-imum temperature and a higher cooling rate,indicating lower heat accumulation compared to that of the short raster sample.In each build direction,the yield strength of the long raster sample was 45.8%-60.5%higher and its ductile-brittle transition temperature was 76.8-103.8 ℃ lower than that of the short raster sample.Additionally,compared to conventionally made samples and without requiring heat treat-ment,the long raster sample exhibited over a 45%increase in yield strength and a 22.7 ℃ reduction in the ductile-brittle transition temperature.The superior combination in long raster samples is induced by smaller effective grain size,smaller cementite,and a higher pre-existing dislocation density.The re-sults emphasize the importance of controlling heat accumulation throughout the additive manufacturing process and provide valuable insights into the use of additive manufacturing for manufacturing reactor pressure vessels in the nuclear industry.

Reactor pressure vesselLaser powder directed energy depositionSA508 Gr.3Low-alloy steelHeat accumulationDuctile-brittle transition temperature

Wonjong Jeong、Young-Bum Chun、Suk Hoon Kang、Chang Kyu Rhee、Chang Hyoung Yoo、Seongjin Yoo、Hongmul Kim、Muhammad Akmal、Ho Jin Ryu

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Department of Nuclear and Quantum Engineering,Korea Advanced Institute of Science and Technology,Yuseong-gu,Daejeon,34141,Republic of Korea

Korea Atomic Energy Research Institute,Yuseong-gu,Daejeon,34057,Republic of Korea

Advanced powder technology team,HANA AMT,Cheongwon-gu,Cheongju-si,28126,Republic of Korea

Department of Material Science and Engineering,Korea Advanced Institute of Science and Technology,Yuseong-gu,Daejeon,34141,Republic of Korea

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2024

10.1016/j.jmst.2024.02.042

材料科学技术(英文版)
中国金属学会 中国材料研究学会 中国科学院金属研究所

材料科学技术(英文版)

CSTPCD
影响因子:0.657
ISSN:1005-0302
年,卷(期):2024.202(35)