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Shuai Wang

Research direction:Multiscale Mechanic of Materials

Postbox:wangs@sustech.edu.cn

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Dr. Shuai Wang received his Doctor degree from Hokkaido University, Japan, in 2013. After graduation, he became WPI postdoctoral researcher at International Institute of Carbon-Neutral Energy Research (WPI-I2CNER) in Kyushu University, Japan. From 2015 to 2018, he worked as an associate researcher at University of Wisconsin-Madison, USA. He joined Southern University of Technology and Science of China in 2018.

Working experience:

2021-Present-----Associate Professor, Southern University of Science and Technology, Shenzhen, China

2018-2020-----Assistant Professor, Southern University of Science and Technology, Shenzhen, China

2015-2018-----Research associate, University of Wisconsin-Madison, Madison, USA

2014-2015-----Postdoctoral researcher, International Institute for Carbon-Neutral Energy Research, Fukuoka, Japan

2013-2014-----Technical Assistant, Hokkaido University, Sapporo, Japan

Education background:

2013-----Ph.D. in Material Science, Hokkaido University, Japan      

2010-----M.Eng. in Materials Physics and Chemistry, University of Science and Technology Beijing, PRC

Research areas:
By using electron transmission microscopy and atomistic simulation as main approaches, his group focus their research on mechanical behavior and microstructure evolution of materials in nano- and micro-scale, to enhance the understanding of the underlying mechanisms for the strengthening and failure process, and formulate a physic model for the selection and design of stronger and safer new materials, which is the most needed tool for the new energy society.

Publication highlights:

1. Q. Sun, Y. Ni, S. Wang*, Orientation dependence of dislocation structure in surface grain of pure copper deformed in tension, Acta Materialia 203 (2021) 116474.
2. S. Wang*, A. Nagao, P. Sofronis, I.M. Robertson*, Assessment of the impact of hydrogen on the stress developed ahead of a fatigue crack, Acta Materialia 174 (2019) 181-188.
3. S. Wang*, A. Nagao, P. Sofronis, I. M. Robertson*, Hydrogen-modified dislocation structures in a cyclically deformed ferritic-pearlitic low carbon steel, Acta Materialia 144 (2018) 164-176.
4. S. Wang, A. Nagao, K. Edalati, Z. Horita, I.M. Robertson, Influence of hydrogen on dislocation self-organization in Ni, Acta Materialia 135 (2017) 96-102.
5. S. Wang, M.L. Martin, I.M. Robertson, P. Sofronis, Effect of hydrogen environment on the separation of Fe grain boundaries, Acta Materialia 107 (2016) 279-288.
6. S. Wang, M.L. Martin, P. Sofronis, S. Ohnuki, N. Hashimoto, I.M. Robertson, Hydrogen-induced intergranular failure of iron, Acta Materialia 69 (2014) 275-282.
7. S. Wang*, N. Hashimoto, Y. Wang, S. Ohnuki, Activation volume and density of mobile dislocations in hydrogen-charged iron, Acta Materialia 61(13) (2013) 4734-4742.
8. M.-R. He, S. Wang, S. Shi, K. Jin, H. Bei, K. Yasuda, S. Matsumura, K. Higashida, I.M. Robertson, Mechanisms of radiation-induced segregation in CrFeCoNi-based single-phase concentrated solid solution alloys, Acta Materialia 126 (2017) 182-193.
9. M.L. Martin, M. Dadfarnia, A. Nagao, S. Wang, P. Sofronis, Enumeration of the hydrogen-enhanced localized plasticity mechanism for hydrogen embrittlement in structural materials, Acta Materialia 165 (2019) 734-750.
10. K.E. Nygren, K.M. Bertsch, S. Wang, H. Bei, A. Nagao, I.M. Robertson, Hydrogen embrittlement in compositionally complex FeNiCoCrMn FCC solid solution alloy, Current Opinion in Solid State and Materials Science 22(1) (2018) 1-7.
11. T. Ma, S. Wang, M. Chen, R.V. Maligal-Ganesh, L.-L. Wang, D.D. Johnson, M.J. Kramer, W. Huang, L. Zhou, Toward Phase and Catalysis Control: Tracking the Formation of Intermetallic Nanoparticles at Atomic Scale, Chem 5(5) (2019) 1235-1247.
12. J. He, Z. Zeng, H. Li, S. Wang*, The microstructure and mechanical properties of copper in electrically assisted tension, Materials & Design 196 (2020).
13. H. Li, J. He, Q. Sun, S. Wang*, Effect of the environment on the morphology of Ni powder during high-energy ball milling, Materials Today Communications 25 (2020) 101288.
14. S. Wang*, K.E. Nygren, A. Nagao, P. Sofronis, I.M. Robertson, On the failure of surface damage to assess the hydrogen-enhanced deformation ahead of crack tip in a cyclically loaded austenitic stainless steel, Scripta Materialia 166 (2019) 102-106.
15. Q. Sun, Q. Han, S. Wang*, R. Xu, Microstructure, corrosion behaviour and thermal stability of AA 7150 after ultrasonic shot peening, Surface and Coatings Technology 398 (2020) 126127.