Zuofa Liu | Metal Forming | Research Excellence Award

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Dr. Zuofa Liu | Metal Forming | Research Excellence Award

Chongqing University | China

Zuofa Liu is a postdoctoral researcher in Materials Science and Engineering at Chongqing University, holding a Ph.D. in the same discipline. His academic and research experience includes participation in National Natural Science Foundation of China projects, National Key R&D Programs, and multiple enterprise-commissioned research initiatives. His research interests focus on metal plastic forming, precision forging, cold and hot extrusion, gear forming technology, and deformation behavior of high-performance alloys. He has published 10 peer-reviewed journal papers, with an h-index of 5 and over 44 citations. His work has contributed to advancing precision forming technologies for aerospace and heavy-duty engineering applications.

Citation Metrics (Scopus)

45
30
15
0

Citations
44

Documents
10

h-index
5

Citations

Documents

h-index

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Featured Publications

Lequien Florence | Corrosion Engineering | Research Excellence Award

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Dr. Lequien Florence | Corrosion Engineering | Research Excellence Award

CEA | France

Florence Lequien is a senior research engineer and academic specializing in corrosion science, materials behavior, and environmental interactions with structural alloys. She serves as Responsable de la 1re année de la filière ingénieur MME at Polytech Paris-Saclay while working as an Ingénieur-Chercheur at the CEA’s Laboratoire d’Étude de la Corrosion Non Aqueuse, where she leads research programs and industrial collaborations focused on corrosion mechanisms, non-aqueous environments, and predictive modelling. Her academic background includes advanced studies in materials for structures and energy, physical sciences, and materials behavior, culminating in a doctoral dissertation on the thermodynamics of bimetallic aggregates. She has conducted significant post-doctoral and engineering research in oxidation modelling, corrosion simulation codes, and ellipsometry applied to industrial materials analysis. Lequien’s research combines experimental characterization, computational modelling, and mechanistic interpretation, contributing to a deeper understanding of corrosion in complex environments such as chloride-containing systems. In addition to organizing scientific events, she teaches corrosion, diffusion, and defects to engineering students, supporting both academic development and scientific innovation.

Citation Metrics (Scopus)

1400
1000
600
200
0

Citations 325

Documents 20

h-index 9

Citations

Documents

h-index


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Featured Publications

Donghui Yang | Alloy Design | Best Researcher Award

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Dr. Donghui Yang | Alloy Design | Best Researcher Award

Liaoning Academy of Materials | China

Donghui Yang is a doctoral candidate in Materials Science and Engineering whose research focuses on advanced metallic materials, high-strength aluminum alloys, and microstructure–property relationships in processing-intensive systems. He earned his bachelor’s degree in Materials Forming and Control Engineering from Liaoning University of Science and Technology and later completed a master’s degree in Materials Processing Engineering at Northeastern University, where he conducted research on high-strength and wear-resistant high-zinc aluminum alloys. He has authored 18 research documents, accumulated 232 citations, and holds an h-index of 8, highlighting his growing academic contribution to alloy design and materials characterization. His technical experience spans solidification theory, thermal processing, mechanical behavior evaluation, metallurgical process optimization, and advanced characterization methods. He has presented his work at national conferences and has been engaged in collaborative research projects linking academia with the materials industry. His achievements have been recognized with distinctions such as the Second Prize in the National Metallurgy Technology Competition for College Students, the First Prize in the China University Mechanical Engineering Innovation and Entrepreneurship Competition, the AVIC-Shenyang Aircraft Leyang Inspirational Bursary, and the Northwest Institute for Nonferrous Metal Research Scholarship. He aims to advance high-performance structural materials through innovative processing strategies and interdisciplinary research.

Hao Xu | Metal Forming | Research Excellence Award

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Prof. Hao Xu | Metal Forming | Research Excellence Award

Nanjing University of Science and Technology | China

Dr. Hao Xu is a Professor of Materials Science and Engineering at Nanjing University of Science and Technology, where his research centers on phase transformation and hot working of metallic and intermetallic materials. He obtained his B.S. from Northeastern University  and earned his Ph.D. in Materials Processing Engineering from the Institute of Metal Research, Chinese Academy of Sciences . Over his career, he has authored more than  high-quality journal articles  published in leading outlets such as Journal of Materials Science & Technology and Corrosion Science and holds over  invention patents. He has led more than research projects as Principal Investigator, demonstrating strong leadership in both fundamental and applied research. In the editorial sphere, he has served as Guest Editor for the special issue “Processing, Structure and Properties of TiAl Alloys” in Crystals and as Associate Editor for the special topic “Intermetallic Compounds” in Precision Forming Engineering. According to his Google Scholar profile, his h-index is 3, with 32 citations than documents 7. His contributions advance the understanding of intermetallic processing, with important implications for lightweight, high-performance materials, and he continues to mentor students and drive innovation in the field.

Profiles: Scopus | Google Scholar | Orcid

Featured Publications

Xu, H., Li, X. B., Xing, W. W., Shu, L., Ma, Y. C., & Liu, K. (2018). Phase transformation behavior of a Mn-containing β-solidifying γ-TiAl alloy during continuous cooling. Intermetallics, 99, 51–58.

Li, X., Xu, H., Xing, W., Chen, B., Ma, Y., & Liu, K. (2018). Phase transformation behavior of a β-solidifying γ-TiAl-based alloy from different phase regions with various cooling methods. Metals, 8(9), 731.

Xu, H., Li, X. B., Xing, W. W., Shu, L., Ma, Y. C., & Liu, K. (2018). Processing map and hot working mechanism of as-cast Ti–42Al–5Mn alloy. Advanced Engineering Materials, 20(6), 1701059.

Xu, H., Li, X. B., Xing, W. W., Shu, L., Ma, Y. C., & Liu, K. (2019). Solidification pathway and phase transformation behavior in a β-solidified γ-TiAl based alloy. Journal of Materials Science & Technology, 35(11), 2652–2657.

Liu, X., Song, L., Stark, A., Lorenz, U., He, Z., Lin, J., Pyczak, F., & Zhang, T. (2022). Deformation and phase transformation behaviors of a high Nb-containing TiAl alloy compressed at intermediate temperatures. Journal of Materials Science & Technology, 102, 89–96.

Suleyman Sukuroglu | Surface Engineering | Surface Engineering Award

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Mr. Suleyman Sukuroglu | Surface Engineering | Surface Engineering Award

Gumushane University | Turkey

Süleyman Şüküroğlu, a metallurgical and materials science researcher whose work spans alloy development, microstructural characterization, thermomechanical processing, and advanced failure analysis. He maintains an active academic profile with an h-index of 7, 12 scientific documents, and over 149 citations, reflecting growing recognition in metallurgical research. He completed his undergraduate education in a science-focused discipline and continued with graduate-level studies emphasizing materials characterization techniques such as SEM, XRD, EDS, and mechanical testing. Professionally, he has contributed to projects involving heat-treatment optimization, corrosion behavior of industrial alloys, welding metallurgy, and computational modeling of microstructural evolution. His research interests include high-performance steels, lightweight alloys, phase transformation kinetics, additive manufacturing materials, and reliability analysis of critical engineering components. He has assisted in laboratory operations, research reporting, project coordination, and cross-disciplinary materials evaluation. His work has been acknowledged in academic and industrial settings for analytical rigor, experimental precision, and contributions to metallurgical process improvements. Looking forward, he aims to advance innovative alloy systems, integrate data-driven modeling with experimental metallurgy, and contribute to sustainable materials solutions for energy, automotive, and aerospace applications.

Profiles: Scopus | Orcid

Featured Publications

Şüküroğlu, S. (2025). Effect of sodium pentaborate (B5H10NaO13) nanoparticle addition to oxide coatings grown on AZ31 magnesium alloy by micro arc oxidation method on mechanical, corrosion and adhesion properties of coatings. Boletín de la Sociedad Española de Cerámica y Vidrio, 64(4), 100446.

Belet, A. K., Şüküroğlu, S., & Şüküroğlu, E. E. (2025). Investigation of structural and adhesion properties of ZnO and h-BN doped TiO2 coatings on Cp–Ti alloy. Journal of Adhesion Science and Technology, 39(19), 2524585.

Şüküroğlu, S. (2025). Characterization, corrosion, adhesion and wear properties of Al2O3 and Al2O3:TiB2 composite coating on Al 7075 aluminum alloy by one-step micro-arc oxidation method. Materials Today Communications, 46, 112493.

Şüküroğlu, S., Şüküroğlu, E. E., Totik, Y., Gülten, G., Efeoğlu, İ., & Avcı, S. (2024). Corrosion and adhesion properties of MAO-coated LA91 magnesium alloy. Materials Science and Technology, 40(8), 1219868.

Karabudak, F., Şüküroğlu, E. E., Şüküroğlu, S., & Yeşildal, R. (2023). The effect of surface roughness on fatigue life in AZ31 magnesium alloy. Transactions of the Indian Institute of Metals, 76(11), 3095–3103.

Jing Li | Metallurgical Process Optimization | Technology Transfer Award

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Ms. Jing Li | Metallurgical Process Optimization | Technology Transfer Award

Kunming University of Science and Technology | China

Professor Jing Li is a distinguished researcher and doctoral supervisor at Kunming University of Science and Technology, recognized under the “Ten-Thousand Talents Program” for Young Top Talents of Yunnan Province. She earned her Ph.D. in Metallurgical Engineering and has accumulated extensive experience in advanced metallurgical process innovation, focusing on the application of microwave and ultrasonic external field enhancement technologies in metallurgy. Her research spans fundamental theory, equipment development, process optimization, and industrial application for sustainable metallurgical engineering. Professor Li has led and completed major research projects funded by the National Natural Science Foundation of China and Yunnan Provincial key programs, in collaboration with industry partners. She has authored more than  SCI/EI-indexed papers and authorized invention patents.  Professor Li also serves as a corresponding reviewer for international journals such as Water Research, Hydrometallurgy, and Environmental Science and Pollution Research. Her scientific contributions have advanced green metallurgy and resource recovery technologies. Through her leadership and innovation, she continues to promote technology transfer and sustainable industrial applications in metallurgical science.

Profile:  Orcid

Featured Publications

Li, J., Zhang, Y., & Chen, X. (2025). Effect of microwave-assisted drying on temperature control and efficiency in metallurgical materials. Journal of the Minerals, Metals & Materials Society, 77(5), 1452–1463.

Li, J., Wang, H., & Liu, P. (2025). Ultrasonic field-enhanced purification in zinc smelting: Process optimization and impurity removal. Applied Sciences, 15(10), 5673.

Li, J., Zhao, Q., & Hu, S. (2024). External field-enhanced metallurgy for green metal recovery from complex resources. Hydrometallurgy, 221, 105767.

Li, J., Xu, L., & Zhou, M. (2023). Coupled microwave-ultrasonic processes for resource recycling and environmental protection in metallurgical waste treatment. Chemical Engineering and Processing: Process Intensification, 110266.

Li, J., Chen, X., & Yang, Z. (2023). Enhanced purification mechanisms in special field metallurgy using ultrasonic-assisted leaching. Canadian Journal of Chemical Engineering, 101(3), 575–588.