王帅，浙江大学长聘副教授（研究员，正高），博士生导师，国家级高层次青年人才。2010-2013年在日本北海道大学进行学习。2014年-2018年先后在日本九州大学和美国威斯康辛大学-麦迪逊分校进行博士后工作。长期致力于“极端环境金属失效理论”研究，在氢脆理论、抗失效制造原理、光电复合增材技术等方面取得了系列原创性成果。在相关领域先后主持国家重点研发计划（“增材制造与激光制造”重点专项，青年科学家项目）、国自然和省市级竞争性科研项目多项，在国际著名学术期刊发表学术论文40多篇，其中有12篇发表在金属材料领域顶级期刊Acta Materialia。连续入选斯坦福大学全球前2％顶尖科学家榜单(2022-2025)。担任中国科技期刊卓越行动计划重点期刊《材料科学与技术杂志》（JMST）、《Corrosion Communications》、《中国腐蚀与防护学报》等学术杂志青年编委。

◆ 金属氢脆机理

◆ 抗失效金属部件的3D打印

◆ 低氢高风险环境（半导体、医疗器械）的抗失效技术

◆ 先进制造中的变形和失效理论

1. Z. Yao, L. Bao, M. Yang, Y. Chen, M. He, J. Yi, X. Yang, T. Yang, Y. Zhao, C. Wang, Z. Zhong, S. Wang*, X. Liu, Thermally stable strong <101> texture in additively manufactured cobalt-based superalloys, Scripta Materialia 242 (2024) 115942.

2. Z. Yao, M. He, J. Yi, M. Yang, R. Shi, C. Wang, Z. Zhong, T. Yang, S. Wang*, X. Liu, High-strength titanium alloy with hierarchical-microstructure design via in-situ refinement-splitting strategy in additive manufacturing, Additive Manufacturing 80 (2024) 103969.

3. Q. Liu, J. Lu, Z. Luo, J. Yi, M. He, Y. Zhao, S. Wang*, Enhancing corrosion resistance of additively manufactured 316L stainless steel by fabricating pillar arrays, Materials & Design 230 (2023) 111940.

4. Q. Sun, J. He, A. Nagao, Y. Ni, S. Wang*, Hydrogen-prompted heterogeneous development of dislocation structure in Ni, Acta Materialia 246 (2022) 118660.

5. H. Cao, W. Lu, M. Yi, S. Wang*, Deformation and failure by weaving dislocation networks in body-centered-cubic tungsten, Materials & Design 223 (2022) 111182.

6. H. Cao, S. Wang*, The effect of hydrogen on dislocation motion and cracking in tungsten foil, Corrosion Science 207 (2022) 110547.

7. M. He, H. Cao, Q. Liu, J. Yi, Y. Ni, S. Wang*, Evolution of dislocation cellular pattern in Inconel 718 alloy fabricated by laser powder-bed fusion, Additive Manufacturing. (2022) 102839.

8. H. Li, Z. Zheng, J. He, A. Nagao, Q. Sun, S. Wang*, Dislocation evolution in copper in the absence and presence of hydrogen, Materials Science and Engineering: A. 842 (2022) 143082.

9. Q. Sun, F. Cao, S. Wang*, Nanoscale corrosion investigation of surface nanocrystallized 7150 Al alloy in 3.5 wt% NaCl solution by using FIB-TEM techniques, Corrosion Science. 195 (2022) 110021.

10. J. He, Z. Zeng, H. Li, S. Wang*, The microstructure and mechanical properties of copper in electrically assisted tension, Materials & Design 196 (2020). 

11. 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.

12. 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.

13. 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.

14. 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.

15. 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.

16. 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.

17. 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.

18. 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.