Xuelin Wang, born in 1986, associate professor in Collaborative Innovation Center of Steel Technology, received his Ph.D. from the University of Science and Technology Beijing in 2018. His recent research interest is the welding physical metallurgical behavior of low alloy steel and development of high performance stainless steel.

【Research Projects】

1. National Natural Science Foundation of China, Research on Visualization and Toughening Mechanism of Welding Structure of Ultra High Strength Marine Engineering Steel, (52001023), 2021-2023.

2. National Key Research and Development Project of China, Research on Anti fatigue and High Anti Crack Heterogeneous Structure Steel for Wind Power, (2022YFB3708200), 2022-2025.

3. National Natural Science Foundation of China, Research on the Strengthening and Toughening Mechanism of Ultra High Strength Hydroelectric Steel through Quantitative Characterization of Variants, (52271089), 2023-2026.

【Publications】

1. X.L. Wang, Z.Q. Wang, A.R. Huang, et al. Contribution of grain boundary misorientation to intragranular globular austenite reversion and resultant in grain reffnement in a high-strength lowalloy steel. Materials Characterization, 169 (2020) 110634.

2. X.L. Wang, X.P. Ma, Z.Q. Wang, et al. Carbon microalloying effect of base material on variant selection in coarse grained heat affected zone of X80 pipeline steel. Materials Characterization, 149 (2019) 26-33.

3. Xuelin Wang, Wenjuan Su, Zhenjia Xie, et al. Microstructure Evolution of Heat‑Afected Zone in Submerged Arc Welding and Laser Hybrid Welding of 690 MPa High Strength Steel and its Relationship with Ductile–Brittle Transition Temperature. Acta Metallurgica Sinica (English Letters), 2022, https://doi.org/10.1007/s40195-022-01498-0.

4. X.L. Wang, A.R. Huang, C.J. Shang, et al. Characterization of the cladding layer by laser cladding of 9Cr18Mo powder on 3Cr14 martensitic stainless steel and the impact of martensite obtained through post heat treatment on hardness. Materials Today Communications, 32 (2022) 104057.

5. X.L. Wang, A.R. Huang, M.X. Li, et al. The significant roles of Nb and Mo on enhancement of high temperature urea corrosion resistance in ferritic stainless steel. Materials Letters, 269 (2020) 127660.

6. X.L. Wang, Z.J. Xie, Z.Q. Wang, et al. Crystallographic study on microstructure and impact toughness of coarse grained heat affected zone of ultra-high strength steel. Materials Letters, 323 (2022) 132552.