Materials Reports  2021, Vol. 35 Issue (Z1): 438-442 |
| METALS AND METAL MATRIX COMPOSITES |
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| Research Progress of Irradiation Embrittlement Properties of SA508 Gr.4N Steel |
| ZENG Xiaochuan1,2, LI Xuejun2, DENG Xiaoyun2, HU Qiaodan1, YOU Lei2
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1 Advanced Materials and Solidification Laboratory, School of Materials Science and Engineering, Shanghai Jiaotong University, Shanghai 200240, China
2 State Key Laboratory of Nuclear Power Safety Monitoring Technology and Equipment, China Nuclear Power Engineering Co., Ltd, Shenzhen 518172, China |
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Abstract The irradiation embrittlement effect of low alloy steel is closely related to the alloy composition. On the basis of steel used in traditional nuc-lear power plant, SA508 Gr.4N steel has outstanding initial mechanical properties by adjusting alloy elements, but it may also bring the risk of deterioration of its radiation property. Under the irradiation condition, the variation in the mechanical properties of SA508 Gr.4N steel has a certain relationship with the alloy elements, and a synergy effect between alloy elements is also found in the changes of micro-features. The latest research progress in the current world on the irradiation properties of SA508 Gr.4N steel is introduced and evaluated in this paper, and furthermore, the future directions worth exploring are presented.
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Published: 16 July 2021
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| Fund:National Key R&D Project (2017YFB0305304). |
| About author:: Xiaochuan Zeng received his B.S. Degree in Material Physics from Wuhan University of Science and Techno-logy in July 2008. He is currently an on-the-job doctoral student in the School of Materials Science and Enginee-ring, Shanghai Jiaotong University, and at the same time as the material designer in charge of the Design Institute of China General Nuclear Power Engineering Co., Ltd. Now under the guidance of Mr. Qiaodan Hu, his researches focused the service properties of low-alloy steel for nuclear power plants.Qiaodan Hu received her Ph.D. degree in Material Processing Engineering from Huazhong University of science and technology in 2007, and now is a researcher and doctoral supervisor at the Institute of Advanced Materials and Solidification, School of Materials Science and Engineering, Shanghai Jiaotong University. She has presided over more than 20 national (provincial) projects including the National Natural Science Foundation of China (5 items), 973 Program Sub-Projects, National Key Research and Development Program Sub-Projects, Major Special Sub-Projects of the Ministry of Industry and Information Technology, Shanghai Natural Science Foundation and China Postdoctoral Special Funding. She had published 63 SCI papers in authoritative journals, such as Acta Mater, Sci Rep, Scripta Mater, Metall Mater Trans A, etc., has worked with professor Jianguo Li to translate the authoritative work "Principle of Solidification", and applied for 11 patents. In 2018, she won the Shanghai Talent Development Funding Program and the winner of the National Science Fund for Outstanding Youth in 2019. Main research direction, advanced material synthesis and solidification theory. |
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