Dr. Shujing Wu | Alloy Development | Best Researcher Award
Associate Professor at North China University of Science and Technology | China
Dr. Shujing Wu, Ph.D. in Materials Science from Wuhan University, is an Associate Professor at North China University of Science and Technology, where she leads research in magnesium alloys and low-carbon steel welding. Her work emphasizes in-situ characterization of microdefects, precipitation kinetics, and their influence on the regulation of mechanical properties, as well as inclusion control and toughening mechanisms in steels. She has made significant contributions to understanding microstructural evolution through advanced in-situ methodologies, providing valuable insights into strengthening mechanisms and orientation relationships in alloys. Dr. Wu has published 13 journal articles indexed in Scopus, with more than 91 citations and an h-index of 4, underscoring the impact and recognition of her research in the field of materials science. As first or corresponding author, she has produced over 10 SCI papers and has been honored with two second prizes for outstanding academic papers in Hubei Province and Tangshan City. She has successfully secured two Hebei Provincial Natural Science Foundation grants and one Postdoctoral Foundation grant, and she has also contributed as a major participant to a National Natural Science Foundation of China regional key project focusing on welded low-carbon steel. Her innovative studies offer new strategies for performance optimization in structural alloys and have practical relevance for industrial metallurgy. Recognized for her academic leadership and dedication to advancing the understanding of microdefect interactions and precipitation behaviors, Dr. Wu stands as a promising figure in materials innovation with a growing global research influence.
Feautured Publications
Wu, S., Li, Y., Zhang, H., & Chen, X. (2025). In situ observation of the dynamic precipitation of Mg₂Sn in Mg-Sn binary alloy processed by controlled aging treatment. Materials & Design. DOI: 10.1016/j.matdes.2025.113021.
Wu, S., Zhao, L., Wang, J., & Liu, Q. (2023). In situ observation and mechanism study on the oxidation process of magnesium under trace oxygen condition. Rengong Jingti Xuebao (Journal of Synthetic Crystals)