Shaowen Wu | Materials Science | Best Researcher Award

Dr. Shaowen Wu, Materials Science, Best Researcher Award

Doctorate at University of Science and Technology Beijing, China

Summary:

Shaowen Wu is a dedicated doctoral student with a political status as a Member of the CPC, currently pursuing a Doctoral degree in Metallurgical Engineering at Beijing University of Science and Technology. He also holds the position of Joint Doctor at KU Leuven, Materials Engineering, showcasing his commitment to advancing knowledge in metallurgy.

His academic journey includes a Master’s degree in Metallurgical Engineering from North China University of Science and Technology, where he focused on high-quality steel continuous casting. He obtained his Bachelor’s degree in Metallurgical Engineering from the same institution.

Shaowen Wu has received notable honors and awards, such as the Scholarship of the Chinese Scholarship Council in 2022, First Class Scholarship of USTB in 2022, and the Excellent Graduate Student Cadres Award at USTB in 2021, among others. These recognitions underscore his academic excellence and contributions to research.

Professional Profile:

Education & Qualification:

Shaowen Wu’s educational background is highlighted by a strong focus on metallurgical engineering. His academic journey includes the following milestones:

Doctor Degree (2020/09~Now):

  • Institution: Beijing University of Science and Technology
  • Program: Metallurgical Engineering
  • Lab: State Key Laboratory of Advanced Metallurgy

Joint Doctor (2023/02~2023/08):

Master Degree (2016/09~2019/03):

  • Institution: North China University of Science and Technology
  • Program: Metallurgical Engineering
  • Lab: High-Quality Steel Continuous Casting Laboratory

Bachelor Degree (2012/09~2016/06):

  • Institution: North China University of Science and Technology
  • Program: Metallurgical Engineering

This educational journey showcases Shaowen Wu’s dedication to advancing his expertise in metallurgical engineering, with a particular emphasis on high-quality steel continuous casting.

Honors and Awards:

Shaowen Wu has earned recognition and accolades for his academic achievements and contributions. Some notable honors and awards include:

  • Scholarship of the Chinese Scholarship Council (2022): Acknowledging academic excellence and research contributions.
  • First Class Scholarship of USTB (2022): Recognition for outstanding performance and dedication at the University of Science and Technology Beijing.
  • Excellent Graduate Student Cadres Award, USTB (2021): Awarded for exemplary leadership and service as a graduate student cadre.
  • Excellent Research Thesis Award, Hebei Province (2020): Recognized for the quality and impact of the research thesis in Hebei Province.
  • Excellent Graduate Student Award, NCST (2018): Acknowledged as an outstanding graduate student at North China University of Science and Technology.
  • Academic Scholarship Award for 3 times, NCST (2016~2019): Consistent recognition for academic excellence through multiple scholarship awards.
  • First Prize in Men’s Singles of SKL Badminton Competition 2022: Achieving excellence in sports by securing the first prize in the Men’s Singles category at the SKL Badminton Competition in 2022.

These honors underscore Shaowen Wu’s multidimensional achievements, spanning academics, research, leadership, and sports.

Research Areas:

Metallurgical Engineering: Wu is engaged in research related to metallurgical processes, particularly focusing on the crystallization behaviors and kinetics of argon oxygen decarburization slag.

Slag Utilization: Wu investigates the reuse of vitrified argon oxygen decarburization slag as supplementary cementitious materials. This research explores the comprehensive performance and the chromium immobilization mechanism of the slag.

Chromium-containing Materials: Wu studies the chromium enrichment in different crystalline phases of Cr-containing slag under various conditions, including different basicities and equilibrium temperatures.

Leaching Mechanism: His research extends to understanding the long-term leaching mechanism of chromium-containing slag after vitrification and heat treatment.

Microstructural Analysis: Wu contributes to the field of metallurgy by conducting a three-dimensional morphology and analysis of Widmanstätten sideplates ferrite, providing insights into the microstructural aspects of metallurgical processes.

Overall, Shaowen Wu’s research spans multiple aspects of metallurgical engineering, including slag properties, chromium-containing materials, and the sustainable utilization of metallurgical by-products.

Publication Top Noted:

Shaowen Wu has made significant contributions to metallurgical engineering, particularly in the area of crystallization behaviors and kinetic of argon oxygen decarburization slag. Some of his recent articles include:

Crystallization behaviors and kinetic of argon oxygen decarburization slag via various SiO2 content: Conditions for obtaining amorphous state

  • Wu, S., Zhang, S., Zhao, Z., Zhang, Y.
  • Journal of Non-Crystalline Solids, 2022, 597, 121926

Reuse of vitrified argon oxygen decarburization slag as supplementary cementitious materials: Comprehensive performance and chromium immobilization mechanism

  • Wu, S., Zhang, S., Zhang, Y., Gao, C.
  • Construction and Building Materials, 2022, 348, 128647

Chromium enrichment in different crystalline phases of Cr-containing slag under various basicities and equilibrium temperatures

  • Wu, S.-W., Zhang, Y.-L., Zhang, S.
  • Journal of Iron and Steel Research International, 2022, 29(9), pp. 1412–1422

Long-term leaching mechanism of chromium-containing slag after vitrification and heat treatment

  • Zhang, S., Zhang, Y., Wu, S., Zhao, Z., Wu, Y.
  • Ceramics International, 2022, 48(9), pp. 13366–13378

Three-Dimensional Morphology and Analysis of Widmanstätten Sideplates Ferrite

  • Cao, S., Wu, S., Zhang, C., Zhang, Q.
  • Metals, 2022, 12(3), 523 (Open access)

These articles showcase Shaowen Wu’s expertise and research focus in metallurgy, providing valuable insights into various aspects of slag and metallurgical processes.