师资力量
物理系
姓名:袁悦
职称:教授
邮箱:yueyuan@buaa.edu.cn

姓名: 袁悦

职称:教授

Email:yueyuan@buaa.edu.cn

办公地点:沙河校区主楼C903

研究方向:先进核能材料

 

个人简介:袁悦,欧洲杯下单平台教授、博导。从事聚变堆用金属材料实验研究工作,主要包括材料辐照损伤、材料中氘扩散及滞留、抗辐照材料研发及制备等。曾多次访问德国于利希研究中心、德国马普等离子体物理研究所,并开展多项合作研究。在国际聚变堆材料大会等国际会议上做邀请报告10余次,具有良好的国际影响力。在《Acta Materialia》、《Nuclear Fusion》、《Journal of nuclear materials》等国际核心学术期刊上发表SCI论文70余篇。主持国家自然科学基金项目4项、科技部ITER专项青年项目1项等。担任全国正电子谱学专业委员会委员,《Rare Metals》、《Tungsten》等期刊青年编委。2017年入选中国科协“青年人才托举工程”,2021年获中国核物理学会首届“赵忠尧青年正电子科学家奖”,2022年获国家优秀青年科学基金项目资助。

 

教育背景:

2008-2013年,清华大学,博士;

2004-2008年,大连理工大学,学士

工作经历:

2023年1月至今 北航欧洲杯下单平台,教授

2016年8月至2022年12月北航欧洲杯下单平台,副教授

2013年7月至2016年7月 北航欧洲杯下单平台,讲师

 

奖励与荣誉:

获批国家自然科学基金优秀青年科学基金项目

荣获中国核物理学会首届“赵忠尧青年正电子科学家奖”

入选中国科协第三届“青年人才托举工程”


学术兼职:

全国正电子谱学专业委员会委员

《Rare Metals》《Tungsten》等期刊青年编委


承担项目:

1.国家自然科学基金委员会,优秀青年科学基金项目,聚变堆材料辐照损伤,2023-01至2025-12;

2.国家自然科学基金委员会,面上项目,重离子与氦等离子体辐照协同效应对钨中氘滞留行为的影响研究,2021-01至2024-12;

3.中华人民共和国科学技术部,国家磁约束核聚变能发展研究专项,柱状晶钨基壁材料低氢同位素滞留机制研究与结构优化,2020-12至2025-11;

4.北京市科学技术委员会,北京市科技计划项目课题,*用高性能抗辐照钨材料研发,2020-06至2022-05;

5.国家自然科学基金委员会,面上项目,氢氦等离子体辐照条件下钨再结晶行为及其抑制方法研究,2018-01至2021-12;

6.军委装备发展部,装备预研基金项目,钨中氢同位素滞留及热脱附行为研究,2018-01至2019-12;

7.中国科学技术协会,青年人才托举项目,2017-12至2019-12;

8.国家自然科学基金委员会,青年基金项目,惰性气体辐照对钨中氘滞留及起泡行为的影响研究,2015-01至2017-12。


代表性学术成果:

[1]Shiwei Wang, Wangguo Guo, Thomas Schwarz-Selinger, Yue Yuan, Lin Ge, Long Cheng, Xiaona Zhang, Xingzhong Cao, Engang Fu, Guang-Hong Lu, Dynamic equilibrium of displacement damage defects in heavy-ion irradiated tungsten, Acta Materialia 244 (2023) 118578.

[2] Ting Wang, Xiaoyang Wang, Xiaolei Ma, Long Cheng, Yue Yuan, Wangguo Guo, Ke Xu, Mi Liu, Ziyang Xie, Liping Guo, Guang-Hong Lu, Neon-concentration dependent retarding effect on the recrystallization of irradiated tungsten: experimental analysis and molecular dynamics simulation, Journal of Materials Science & Technology 139 (2023) 245-259.

[3] Yu Li, Yuhan Sun, Long Cheng,Yue Yuan, Baohai Jia, Jiaqing He, Guang-Hong Lu, Guang-Nan Luo, Qiang Zhu, Preliminary exploration of a WTaVTiCr high-entropy alloy as a plasma-facing material, Nuclear Fusion 62 (2022) 126002.

[4] Ting Wang, Mengchong Ren, Xiu-Li Zhu, Xiaolei Ma,Yue Yuan, Long Cheng, Guang-Hong Lu. Effect of initial exposure temperature on the deuterium retention and surface blistering in tungsten, Nuclear Materials and Energy 33 (2022) 101245.

[5] Yuhan Sun, Shiwei Wang, Chen Li, Wangguo Guo,Yue Yuan, Hong Zhang, Peng Wang, Long Cheng, Guang-Hong Lu, Dependence of deuterium retention and surface blistering on deuterium plasma exposure temperature and fluence in lanthanum oxide doped tungsten, Nuclear Materials and Energy 32 (2022) 101217.

[6] Yingdi Wang, Wangguo Guo, Yida Zhu,Yue Yuan, Jiaguan Peng, Mengchong Ren, Zheng Wang, Long Cheng, Zhe Chen, Youyun Lian, Xiang Liu, Guang-Hong Lu, Effect of helium pre-implantation on the thermal shock performance of tungsten, Nuclear Materials and Energy 27 (2021) 100934.

[7] Shiwei Wang, Wangguo Guo, Long Cheng, Thomas Schwarz-Selinger, Mi Liu, Xiuli Zhu,Yue Yuan, Engang Fu, Guang-Hong Lu, Dependence of blistering and deuterium retention on damage depth in damaged tungsten exposed to deuterium plasma, Nuclear Fusion 61 (2021) 056003.

[8] Zheng Wang, Liang Gao, Xiu-Li Zhu,Yue Yuan, Shiwei Wang, Long Cheng, Guang-Hong Lu, Effect of rhenium on defects evolution behavior in tungsten under irradiation, Nuclear Fusion61 (2021) 036037.

[9] Yipeng Li, Li Wang, Guang Ran,Yue Yuan, Lu Wu, Xinyi Liu, Xi Qiu, Zhipeng Sun, Yifan Ding, Qing Han, Xiaoyong Wu, Huiqiu Deng, Xiuyin Huang, In-situ TEM investigation of 30 keV He+irradiated tungsten: Effects of temperature, fluence, and sample thickness on dislocation loop evolution, Acta Materialia 206 (2021) 116618.

[10]Yue Yuan, Ting Wang, Arkadi Kreter, Michael Reinhart, Alexis Terra, Sören Möller, Long Cheng, Christian Linsmeier, Guang-Hong Lu, Influence of neon seeding on the deuterium retention and surface modification of ITER-like forged tungsten, Nuclear Fusion61 (2021) 016007.

[11]Mi Liu, Wangguo Guo, Long Cheng, Jun Wang, Shiwei Wang, Hao Yin, Ting Wang, Yuhua Huang,Yue Yuan, Thomas Schwarz-Selinger, Gregory De Temmerman, Xing-Zhong Cao, Guang-Nan. Luo and Guang-Hong Lu, Blister-dominated retention mechanism in tungsten exposed to high-fluence deuterium plasma,Nuclear Fusion 60 (2020) 126034.

[12]Wangguo Guo, Shiwei Wang, Lin Ge, Engang Fu,Yue Yuan, Long Cheng and Guang-Hong Lu, Dislocation loop and tangle evolution of peak damage region in tungsten irradiated by heavy ion and deuterium plasma,Nuclear Fusion 60 (2020) 034002.

[13] Shiwei Wang, Wangguo Guo,Yue Yuan, Ning Gao, Xiuli Zhu, Long Cheng, Xingzhong Cao, Engang Fu, Liqun Shi, Fei Gao, Guang-Hong Lu, Evolution of vacancy defects in heavy ion irradiated tungsten exposed to helium plasma, Journal of Nuclear Materials 532 (2020) 152051.

[14] W.Q. Chen, X.Y. Wang, Y.L. Chiu, T.W. Morgan, W.G. Guo, K.L. Li, Y. Yuan, B. Xu, W. Liu, Growth mechanism of subsurface hydrogen cavities in tungsten exposed to low-energy high-flux hydrogen plasma,Acta Materialia 193 (2020) 19-27.

[15]Yue Yuan, Wangguo Guo, Peng Wang, Shilian Qu, Wei Liu, Guangnan Luo, Long Cheng, Guang-Hong Lu, Influence of surface melting on the deuterium retention in pure and lanthanum oxide doped tungsten, Nuclear Fusion 59 (2019) 016022.

[16] Jun Wang, Long Cheng,Yue Yuan, Guang-Hong Lu, Lin Ge, Zhang-Jian Zhou, Fuzz nanostructure and erosion on tungsten–vanadium alloys exposed to helium plasma in the STEP linear plasma device, Nuclear Fusion 59 (2019) 086038.

[17] Wangguo Guo, Lin Ge,Yue Yuan, Long Cheng, Shiwei Wang, Xiaona Zhang, Guang-Hong Lu, <001> edge dislocation nucleation mechanism of surface blistering in tungsten exposed to deuterium plasma, Nuclear Fusion 59 (2019) 026005.

[18] A. Terra, G. Sergienko, M. Tokar, D. Borodin, T. Dittmar, A. Huber, A. Kreter, Y. Martynova, S. Möller, M. Rasiński, M. Wirtz, Th. Loewenhoff, D. Dorow-Gerspach, Y. Yuan, S. Brezinsek, B. Unterberg, Ch. Linsmeier, Micro-structured tungsten: an advanced plasma-facing material, Nuclear Materials and Energy 19 (2019) 7–12.

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