Yuanwei Sun | Metal Materials and Engineering | Best Researcher Award

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Dr. Yuanwei Sun | Metal Materials and Engineering | Best Researcher Award

Yantai University | China

Dr. Yuanwei Sun currently serves as a lecturer in the School of Nuclear Equipment and Nuclear Engineering at Yantai University and holds a doctoral degree from the School of Materials Science and Engineering at Central South University. Her research is devoted to advancing the field of high-entropy alloys, with a strong focus on three core areas: composition design of high-entropy alloys, processing and forming technologies for high-entropy alloys, and mechanisms of rare-earth-element modified alloys. As first author she has published over twenty SCI-journal articles, and holds one national invention patent and one utility-model patent. Her work in the area of high-entropy alloys has achieved a notable level of recognition, as evidenced by her h-index and citation count (as recorded on publicly available academic profile services) which reflect a growing impact in this research domain. With her combination of experimental innovation in alloy processing and fundamental study of modification mechanisms by rare-earth elements, Dr Sun is making significant contributions to materials science and engineering — particularly in the context of advanced structural alloys for demanding applications. Her ongoing efforts promise further breakthroughs in alloy design, processing optimization and mechanism elucidation, and mark her as a rising leader in the field of high-entropy materials.

Profile: Orcid 

Featured Publications 

Yin, Z., Sun, Y., Zhu, K., Liu, F., Sun, Q., & Zhao, Y. (2025). Deformation modeling and dynamic recrystallization behavior of Sc-doped Al₀.₃CoCrFeNiSc₀.₀₆ high-entropy alloy associated with precipitates during high temperature deformation. Journal of Alloys and Compounds, 1097, 184846.

Wang, W., Pan, Q., Wang, X., Han, M., Liu, B., Sun, Y., & Liu, X. (2024). Achieving high strength and ductility of Al-Zn-Mg-Cu alloys via laser shock peening and spray forming. Materials Characterization, 214, 114427.

Wang, W., Pan, Q., Wang, X., Han, M., Liu, B., & Sun, Y. (2024). Improving mechanical property and corrosion resistance of high electrical conductivity Al-Ce-Sc-Y and Al-Mg-Si-Ce-Sc-Y alloys by laser shock peening. Journal of Manufacturing Processes, 94, 173–182.

Sun, Y., Wang, Z., Zhao, X., Liu, Z., & Cao, F. (2023). Effects of Sc addition on microstructure, phase evolution and mechanical properties of Al₀.₂CoCrFeNi high-entropy alloys. Transactions of Nonferrous Metals Society of China, 33(12), 66368.

Sun, Y., Wang, Z., Wang, W., Zhao, X., Zhu, K., Li, H., Zhao, Y., & Yin, Z. (2023). Wear and corrosion resistance of Al₁.₂CoCrFeNiScₓ high entropy alloys with scandium addition. Journal of Materials Research and Technology, 27, 6203–6215.

Dr. Huan Luo – Vacuum metallurgy – Best Researcher Award

Posted on by Innovator Awards

Dr. Huan Luo - Vacuum metallurgy - Best Researcher Award

Kunming University of Science and Technology, National Engineering Research Center of Vacuum Metallurgy - China 

Author Profile 

ORCID 

Early academic pursuits 📚

Huan Luo embarked on his academic journey at Kunming University of Science and Technology, where he developed a deep interest in metallurgy. He pursued a doctoral degree in nonferrous metals metallurgy, immersing himself in the complexities of metal extraction and purification. His dedication and passion for the field led him to successfully defend his thesis, establishing a solid foundation for his future career in academia and research.

Professional endeavors 🏢

In 2023, Huan transitioned from a doctoral candidate to a lecturer at Kunming University of Science and Technology, where he currently teaches and mentors students in metallurgy. He is also affiliated with the National Engineering Research Center of Vacuum Metallurgy, where he engages in innovative research projects. His professional journey reflects a commitment to advancing knowledge in nonferrous metallurgy while contributing to the academic growth of his students.

Contributions and research focus 🔍

Huan's research is centered around the efficient extraction and purification of dispersed metal selenium from copper anode slime, focusing on its basic research and engineering applications. He is deeply involved in the comprehensive recovery and utilization of valuable secondary resources, striving to enhance the sustainability Vacuum metallurgy and efficiency of metallurgical processes. His work has implications for both environmental sustainability and resource conservation in metallurgy.

Accolades and recognition 🏅

Huan has made significant contributions to the field, participating in six national and provincial projects that underline his active engagement with the scientific Vacuum metallurgy community. He has published over 12 academic papers in reputable journals, including the Chinese Journal of Non-Ferrous Metals, showcasing his research findings and methodologies. Furthermore, he has applied for or been authorized for more than 10 patents, highlighting his innovative contributions to metallurgy.

Impact and influence 🌍

Huan Luo's work has a profound impact on the field of nonferrous metals metallurgy, particularly in the area of resource recovery and environmental sustainability. His research not only advances academic understanding but also addresses practical challenges in the metallurgy industry. By developing effective extraction Vacuum metallurgy technologies, Huan contributes to the reduction of waste and the optimization of resource utilization, promoting a more sustainable approach to metallurgy.

Legacy and future contributions 🔮

As a dedicated educator and researcher, Huan's legacy lies in his commitment to advancing the field of metallurgy and inspiring future generations of scientists. His ongoing research efforts aim to further enhance the efficiency of metal recovery processes and contribute to the development of sustainable practices in metallurgy. Huan's vision for the future includes expanding his research impact and fostering collaborations that can lead to innovative solutions in the field.

Notable Publications 

  • Title: Separation of arsenic and antimony: A comprehensive theoretical and experimental study
    Authors: Zibin Zuo, Rongbo Zhu, Xinyang Liu, Xiumin Chen, Tengteng Shi, Xianjun Lei, Jian Wu, Wenlong Jiang, Bin Yang, Baoqiang Xu et al.
    Journal: Journal of Materials Research and Technology
    Date: 2024-07
    DOI: 10.1016/j.jmrt.2024.06.069
  • Title: Novel valence regulation-vacuum gasification method for separation of selenium and tellurium
    Authors: Huan Luo, Wei-yi Wang, Xin Yu, Xian-jun Lei, Lang Liu, Guo-zheng Zha, Wen-long Jiang, Bin Yang, Baoqiang Xu
    Journal: Vacuum
    Date: 2024-01
    DOI: 10.1016/j.vacuum.2023.112737
  • Title: Phase Control of Typical Impurities in Hazardous Selenium Waste and Preparation of High-Purity Selenium During Pre-oxidation and Vacuum Distillation Process
    Authors: Huan Luo, Lang Liu, Guozheng Zha, Wenlong Jiang, Bin Yang, Fengkang Wang, Baoqiang Xu
    Journal: Metallurgical and Materials Transactions B
    Date: 2023-02
    DOI: 10.1007/s11663-022-02658-4
  • Title: Theoretical analysis and experimental verification of thermal decomposition mechanism of CuSe
    Authors: Huan LUO, Heng XIONG, Wen-long JIANG, Lang LIU, Guo-zheng ZHA, Tian-tian ZHEN, Bin YANG, Bao-qiang XU
    Journal: Transactions of Nonferrous Metals Society of China
    Date: 2022-10
    DOI: 10.1016/s1003-6326(22)66034-5
  • Title: Selective Separation of Tellurium and Copper from Crude Selenium by Pre-oxidation and Vacuum Distillation
    Authors: Huan Luo, Wenlong Jiang, Heng Xiong, Guozheng Zha, Lang Liu, Tiantian Zhen, Bin Yang, Baoqiang Xu
    Journal: Metallurgical and Materials Transactions B
    Date: 2022-04
    DOI: 10.1007/s11663-022-02428-2