发表论文
[1] Binbin Wu, Fangzhong Hu, Zhiquan Wang, et al. “Unraveling the Effects of Austenitizing Temperature and Austenite Grain Size on the Crystallographic Characteristics and Mechanical Properties of Martensitic Transformation Products in a Low-Alloy Steel”, Acta Metallurgica Sinica (English Letters), V36, 2023, P694-704.
[2] Binbin Wu, Zhiquan Wang, Chengjia Shang, et al. “A route to produce toughened acicular ferrite with equivalent hardness as martensite: The combined effect of elements segregation and pre-transformed allotriomorphic ferrite”, Materials Characterization, V182, 2021, 111528.
[3] Bin-Bin Wu, Zhi-Quan Wang, Cheng-Jia Shang, et al. “Nucleation Analysis of Variant Transformed from Austenite with Σ3 Boundary in High-Strength Low-Alloy Steel”. Acta Metallurgica Sinica (English Letters), V34, 2021, P523-533. (SCI)
[4] B.B. Wu, Z.Q. Wang, Y.S. Yu, et al. “Thermodynamic basis of twin-related variant pair in high strength low alloy steel”, Scripta Materialia, V170, 2019, P43–47.
[5] B.B. Wu, Z.Q. Wang, X.L. Wang, et al. “Toughening of martensite matrix in high strength low alloy steel: Regulation of variant pairs”, Materials Science & Engineering A, V759, 2019, P430-436.
[6] B.B. Wu, X.L. Wang, Z.Q. Wang, et al. “New insights from crystallography into the effect of refining prior austenite grain size on transformation phenomenon and consequent mechanical properties of ultra-high strength low alloy steel”, Materials Science & Engineering A, 745, 2019, P126-136.
[7] B.B. Wu, S. Huang, Z.Q. Wang, et al. “Crystallography analysis of toughness in high strength ultra-heavy plate steel”, Materials Letters, 250, 2019, P55–59.
[8] B. B. Wu, Z. Q. Wang, X. L. Wang, et al. “Relationship between high angle grain boundaries and hardness after γ→α transformation”, Materials Science and Technology, V35, 2019, P1803-1814.
[9] B.B. Wu, H. Chen, C.J. Shang, et al. “Effect of Tempering Mode on the Microstructure and Mechanical Properties of a Lean Alloy Martensitic Steel: Conventional Reheating Versus Induction Reheating”, Journal of Materials Engineering and Performance, V28, 2019, 2807-2815.