工程力学系
电子邮件:dengke.chen@sjtu.edu.cn
通讯地址:上海市闵行区东川路800号木兰船建大楼A901
1985年出生,河南洛阳人
【工作经历】
2021.01至今 威尼斯9499登录入口 工程力学系 长聘教轨副教授
2015.12~2020.11 佐治亚理工学院 机械工程系 博士后
【教育经历】
2010.08~2015.12 休斯顿大学 机械工程系 博士
2007.09~2010.06 大连理工大学 工程力学系 硕士
2003.09~2007.06 武汉大学 工程力学系 学士
博士/硕士招生
课题组每年计划招收博士和硕士各一名,研究方向为新兴高熵合金强韧性、新能源氢脆问题等
热忱欢迎力学、材料、机械等相关专业学生来信咨询
研究方向为固体力学,围绕新能源和新型先进材料,研究其强韧性相关的力学问题。近年来发表多篇文章在
《Nature》
《Nature Materials》
《Nature Communications》
《Science Advances》
《Journal of the Mechanics and Physics of Solids》固体力学旗舰期刊
《Acta Materialia》金属材料旗舰期刊
《Applied Physics Letters》应用物理旗舰期刊
中国力学学会会员
上海市力学学会会员
近年来主持的科研项目
1 - 《基于机器学习的高熵合金晶界强化微观机理研究》,国家自然科学基金(面上项目),2023-2026
2 - 《⾼熵合⾦晶界相关的抗辐照性能研究》,上海市“科技创新行动计划”自然科学基金(面上项目),2022-2025
3 - 《⾼熵合⾦位错相关的氢脆机理研究》,上海市浦江人才计划A类(科研开发类),2021-2023
近年来代表性论文(#为共同一作,*为通讯作者)
17 - Y. Qi, T. He*, M. Feng, D. Chen*, Quantifying the solute-induced additional repulsive force between two partials of pure screw dislocations, Mechanics of Materials, 186, 104783, 2023
16 - L. Huang#, D. Chen#, D. Xie*, S. Li, Y. Zhang, T. Zhu, D. Raabe, E. Ma, J. Li, Z. Shan*, Quantitative tests revealing hydrogen enhanced dislocation motion in α-iron, Nature Materials, 2023
15 - J. Guo, Y. Zhang, D. Chen*, Hydrogen-Induced Attractive Force Between Two Partials of Edge Dislocation in Nickel, Journal of Applied Mechanics, 90(7), 071007, 2023
14 - Y. Chen#, D. Chen#, X. An*, Y. Zhang, Z. Zhou, S. Lu, P. Munroe, S. Zhang, X. Liao*, T. Zhu*, Z. Xie, Unraveling dutal phase transformations in a CrCoNi medium-entropy alloy, Acta Materialia, 215, 117112, 2021
13 - H. Wang#, D. Chen#, X. An*, Y. Zhang, S. Sun, Y. Tian, Z. Zhang, A. Wang, J. Liu, M. Song, S.P. Ringer, T. Zhu*, X. Liao*, Deformation-induced crystalline-to-amorphous phase transformation in a CrMnFeCoNi high-entropy alloy, Science Advances, 7(14), eabe3105, 2021
12 - J. Wang*, Z. Zeng, M. Wen, Q. Wang, D. Chen, Y. Zhang, P. Wang, H. Wang, S.X. Mao, Z. Zhang, T. Zhu*, Anti-twinning in Nanoscale Tungsten, Science Advances, 6(23), eaay2792, 2020
11 - D. Chen, S. Xu, Y. Kulkarni* , Atomistic mechanism for vacancy-enhanced grain boundary migration, Physical Review Materials, 4(3), 033602, 2020
10 - Q. Ding, Y. Zhang, X. Chen, X. Fu, D. Chen, S. Chen, L. Gu, F. Wei, H. Bei, Y. Gao, M. Wen, J. Li, Z. Zhang, T. Zhu*, R.O. Ritchie*, Q. Yu*, Tuning Element Distribution Structure and Properties by Composition in High-Entropy Alloys, Nature, 574(7777), 223-227, 2019
9 - Q. Ding, X. Fu, D. Chen, H. Bei, B. Gludovatz, J. Li, Z. Zhang, E.P. George, Q. Yu*, T. Zhu*, R.O. Ritchie*, Real-time nanoscale observation of deformation mechanisms in CrCoNi-based medium-to high-entropy alloys at cryogenic temperatures, Materials Today, 25, 21-27, 2019
8 - D. Chen, L.L. Costello, C.B. Geller, T. Zhu*, D.L. McDowell*, Atomistic modeling of dislocation cross-slip in nickel using free-end nudged elastic band method, Acta Materialia, 168, 436-447, 2019
7 - D. Chen, Y. Kulkarni*, Atomistic modeling of grain boundary motion as a random walk, Physical Review Materials, 2(9), 093605, 2018
6 - L. Wang, P. Guan, J. Teng, P. Liu, D. Chen, W. Xie, D. Kong, S. Zhang, T. Zhu*, Z. Zhang, E. Ma, M. Chen*, X. Han*, New twinning route in face-centered cubic nanocrystalline metals, Nature communications, 8(1), 2142, 2017
5 - D. Chen, Y. Kulkarni*, Thermal Fluctuations as a Computational Microscope for Studying Crystalline Interfaces: A Mechanistic Perspective, Journal of Applied Mechanics, 84(12), 121001, 2017
4 - D. Chen, T. Ghoneim, Y. Kulkarni*, Effect of pinning particles on grain boundary motion from interface random walk, Applied Physics Letters, 111(16), 161606, 2017
3 - S. Huang, D. Chen, J. Song, D.L. McDowell, T. Zhu*, Hydrogen embrittlement of grain boundaries in nickel: an atomistic study, npj Computational Materials, 3(1), 28, 2017
2 - D. Chen, Y. Kulkarni*, Entropic interaction between fluctuating twin boundaries, Journal of the Mechanics and Physics of Solids, 84, 59-71, 2015
1 - D. Chen, Y. Kulkarni*, Atomistic Study of the Thermal Stress due to Twin Boundaries, Journal of Applied Mechanics, 82(2), 021005, 2015
本科生课程
1 - 《材料力学》,2023年春季
2 - 《力学创新实验》,2022年秋季
2021年入选上海市浦江人才计划
2021年入选上海市海外高层次人才(青年项目)