中文

    Liang Wei
    创建时间:  2024-03-25  吕涛    浏览次数:

    NAMELiang Wei
    BIRTH DATE04/1987
    TITLE/POSITIONAssociate Professor
    PHONE021-66136190
    EMAILweiliang1204@shu.edu.cn
    Education

    Ph.D. University of Science and Technology Beijing, Beijing, China

    B.S. China University of Mining and Technology-Beijing, Beijing, China

    Research Interests

    (1) Data-driven high-performance structure and function integrated alloy/coating design;

    (2) Research on the service behavior (corrosion, hydrogen embrittlement, etc.) of key materials in new energy area based on high-throughput experiments/computation and machine learning and their multi-scale efficient evaluation;

    (3) Theoretical study on electrochemical corrosion/passivation of material surface and interface

    (4) Design and service of additive manufacturing alloys

    Significant RecognitionHumboldt Research Fellowship for Postdoctoral Researchers, Alexander von Humboldt Foundation, Germany, 2022
    Selected Publications

    1. L. Wei*, W. M. Qin, J. Y. Chen, et al., L21-strengthened face-centered cubic high-entropy alloy with well pitting resistance, Corrosion Science 215 (2023) 111043.

    2. L. Wei*, W. M. Qin, Corrosion mechanism of eutectic high-entropy alloy induced by micro-galvanic corrosion in sulfuric acid solution, Corrosion Science 206 (2022) 110525.

    3. L. Zhao, L. Wei*, et al., A highly corrosion resistant and nondestructive menthol coating strategy for short-term protection of bronzes, Progress in Organic Coatings 170 (2022) 106947.

    4. J. J. Nie, L. Wei*, et al., Corrosion mechanism of additively manufactured 316L stainless steel in 3.5 wt.% NaCl solution, Materials Today Communications 26 (2021), 101648.

    5. J. J. Nie1, L. Wei1, et al., High-throughput characterization of microstructure and corrosion behavior of additively manufactured SS316L-SS431 graded material, Additive Manufacturing 35 (2020) 101295.

    6. Y. Jiang, G. T. Zhang, J. J. Xing, H. Q. Fan, L. Wei*, et al., In situ growth and protectiveness mechanism of layered double hydroxide/oxide hierarchical structure on copper alloy in 3.5 wt% NaCl solution, Surface & Coatings Technology 397 (2020) 126042.

    7. L. Wei, K. Gao, Understanding the general and localized corrosion mechanisms of Cr-containing steels in supercritical CO2-saturated aqueous environments, Journal of Alloys and Compounds 792 (2019) 328-340.

    8. L. Wei, Y. Liu, F. Cheng, Q. Li, Effect of roughness on the general corrosion and pitting of (CoCrFeNi)0.89(WC)0.11 high-entropy alloy composite in 3.5 wt.% NaCl solution, Corrosion Science, 146 (2019), 44-57.

    9. L. Wei, X. Pang, et al., Effect of flow rate on localized corrosion of X70 steel in supercritical CO2 environments, Corrosion Science, 136 (2018): 339-351.

    10. L. Wei, K. Gao, et al., Corrosion of low alloy steel containing 0.5% chromium in supercritical CO2-saturated brine and water-saturated supercritical CO2 environments, Applied Surface Science 440 (2018): 524-534.
















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