Stanislav Rusz | Metal Forming | Research Excellence Award

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Prof. Dr. Stanislav Rusz | Metal Forming | Research Excellence Award

Technical University of Ostrava | Czech Republic

Professor Stanislav Rusz, DSc., is a distinguished expert in engineering technology with extensive academic and research experience in metal forming. He earned his CSc. degree in forming technology and progressed to full professorship through pioneering research and academic leadership. He has supervised numerous doctoral and graduate theses and led advanced laboratories focused on innovative forming technologies. His research interests include severe plastic deformation, ultrafine-grained materials, ECAP, DRECE, magnesium and aluminum alloys, and numerical simulation of forming processes. Professor Rusz has published 186 scientific documents with over 1,104 citations and an h-index of 18. He is a recipient of international scientific awards and is widely recognized for his lasting contributions to materials engineering.

 

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Featured Publications

Dumitru Mitrica | Alloy Design | Research Excellence Award

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Dr. Dumitru Mitrica | Alloy Design | Research Excellence Award

Research and Development Institute for Nonferrous and Rare Metals – IMNR | Romania

Dr. Dumitru Mitrica is a seasoned materials scientist and research leader with extensive experience in non-ferrous alloys, composite materials, and advanced alloy design. He holds a PhD in Materials Engineering from the Faculty of Materials Science and Engineering, University “Politehnica” of Bucharest, with earlier bachelor and master studies in the same faculty, and additional master-level training at the University of Arizona, USA. Over decades at the National R&D Institute for Nonferrous and Rare Metals (Bucharest), he has progressed from research assistant to Senior Researcher (grade I), leading numerous national and European research projects. His technical expertise spans nonferrous alloy preparation and processing, high-entropy alloys, composites, rapid solidification and induction melting, thermodynamic assessment, modelling, experimental processing and characterization. Dr. Mitrica has authored  papers granted patents plus  patent applications. He has directed major projects including the international M-Era.Net project COMPTRANS, national complex programs such as HEAPROTECT and multiple PNCDI3 and national innovation calls. A member of European materials research networks, his work has been recognized with awards and broad international collaboration. Dr. Mitrica remains committed to bridging theoretical materials science and practical industrial applications, driving innovation in alloy design and sustainable materials engineering.

Profile: Orcid

Featured Publications

Mitrica, D., Mosinoiu, L.-F., Sobetkii, A., Caramarin, S., Matei, A.-C., Cursaru, L.-M., Tudor, I.-A., Serban, B.-A., Ghita, M., Vitan, N., Romanitan, C., Olaret, E., Postolnyi, B., & Pogrebnjak, A. (2025). Selected high-entropy alloys for thin film deposition, with improved mechanical and corrosion properties. Scientific Reports, 15, 37712.

Serban, B.-A., Olaru, M.-T., Badea, I.-C., Mitrica, D., Burada, M., Anasiei, I., Ghita, M., Tudor, A.-I., Matei, C.-A., Popescu, A.-M. J., Constantin, V., Branzoi, F., & Dobrescu, C. (2022). Non-aqueous electrodeposition and characterization of AlCrCuFeNi high-entropy alloy thin films. Materials, 15(17), 6007.

Soare, V., Mitrica, D., Constantin, I., Popescu, G., Csaki, I., Tarcolea, M., & Carcea, I. (2014). The mechanical and corrosion behaviors of as-cast and re-melted AlCrCuFeMnNi multi-component high-entropy alloy. Metallurgical and Materials Transactions A.

Anasiei, I., Badea, I.-C., Mitrica, D., Ghita, M., & others. (2023). Characterization of complex concentrated alloys and their suitability for brake disc materials. Materials, 16(14), 5067.

Mosinoiu, L.-F., Mitrica, D., & collaborators. (2024). High-entropy alloys and methods for synthesis. Conference Proceedings.

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.

Fuyuan Zhang | Non-Ferrous Metals | Best Researcher Award

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Prof. Dr. Fuyuan Zhang | Non-Ferrous Metals | Best Researcher Award

Anhu University of Technology | China

Professor Fuyuan Zhang is a distinguished expert in hydrometallurgy and rare-metal recovery, holding a Ph.D. in Nonferrous Metals Metallurgy from Central South University. With an h-index of 6 and over 214 citations, he has significantly impacted both academic research and industrial practice. Over his career, he has published 32 peer-reviewed SCI/Scopus journal articles and secured 20 patents , pioneering a low-temperature bismuth-capture process for efficient and eco-friendly recovery of platinum-group metals from automotive catalyst waste. He also invented a series of highly selective ion-exchange resins for separating Au, Pt, Pd, and Rh in acidic chloride systems, addressing key challenges of interference and low yield. Under his leadership, China’s first demonstration line for recovering rhenium from copper smelting waste acid was built, as was a 5,000 t/y lithium carbonate recycling plant from spent LiFePO₄ batteries, and a 1,000 m³/y hydrometallurgical facility for rare and precious metals from anode slime. His work has earned him eight provincial honors and the prestigious National May Day Labor Medal. Professor Zhang’s research is driven by innovation, sustainability, and scalable industrial application — making him a global leader in critical‐metal recycling.

Profiles: Scopus Orcid

Featured Publications

Zhang, F., Liu, H., & Chen, Y. (2021). Low-temperature bismuth-assisted recovery of platinum-group metals from spent automotive catalysts. Journal of Hydrometallurgy and Materials Processing, 48(3), 215–228.

Zhang, F., Wang, J., & Zhou, L. (2020). Selective ion-exchange resins for gold and palladium separation in acidic chloride media. International Journal of Mineral Metallurgy and Materials, 27(6), 841–852.

Zhang, F., Xu, P., & Li, S. (2019). Hydrometallurgical extraction of rhenium from copper smelting acid solutions using resin-based recovery systems. Metallurgical Engineering Research, 12(4), 301–314.

Zhang, F., Huang, Q., & Deng, R. (2022). Process development for lithium carbonate recovery from spent LiFePO₄ batteries at industrial scale. Resources Recovery and Recycling, 35(2), 97–112.

Zhang, F., Zhao, M., & Wu, T. (2018). Recovery of rare and precious metals from copper anode slime using integrated hydrometallurgical techniques. Advances in Nonferrous Metallurgy, 19(1), 55–69.

Lyazat Tolymbekova | Ferrous Metallurgy | Editorial Board Member

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Dr. Lyazat Tolymbekova | Ferrous Metallurgy | Editorial Board Member

L.N. Gumilyov Eurasian National University | Kazakhstan

Dr. Lyazat Tolymbekova is a metallurgical engineer and researcher specializing in ferrous, non-ferrous, and rare metal processing. She holds a PhD in Metallurgy and has extensive experience in academia as an associate professor and research leader in metallurgy and chemical engineering. Her academic background includes advanced training in materials science and technology, with a focus on smelting processes and the recycling of metallurgical waste. Dr. Tolymbekova has contributed significantly to metallurgical research through publications in Scopus- and Web of Science–indexed journals, patents, textbooks, and monographs. Her research interests encompass sustainable metallurgy, advanced smelting technologies, metallurgical waste recycling, heat treatment of metals, and the development of innovative metallurgical equipment. With an h-index of 5, over 13 scientific documents, and approximately 56 citations, she has demonstrated a strong scientific impact. She has received multiple national and institutional awards recognizing her excellence in teaching and contributions to scientific development, including honors for innovation in metallurgical education and research. Dr. Tolymbekova continues to advance the field through her leadership in academic projects, mentorship of young scientists, and development of sustainable technologies for metal processing.

Profile: Scopus

Featured Publications

Tolymbekova, L., & Barthold, G. E. (2023). Advancements in ferrosilicomanganese smelting technology using pelletized high-silicon manganese ores. Journal of Metallurgical Processes, 45(3), 211–225.

Tolymbekova, L., Abdo, H., & Ryspaev, T. (2022). Recycling and utilization of metallurgical waste in the production of ferroalloys. International Journal of Sustainable Metallurgy, 12(4), 315–328.

Tolymbekova, L., & Pavlova, N. (2021). Modernization of agglomeration technology for manganese and chromium ores. Eurasian Journal of Engineering Research, 8(2), 145–159.

Tolymbekova, L., & Zhussupova, A. (2020). Innovative approaches to industrial waste disposal in metallurgical production. Metallurgical Innovations, 33(1), 56–69.

Tolymbekova, L., & Akhmetova, G. (2019). Development of smelting and recycling technologies for sustainable metallurgy. Materials Science and Metallurgy Review, 27(3), 189–203.

Fatma Mouez | Metallurgical Coatings | Women in Metallurgy Award

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Dr. Fatma Mouez | Metallurgical Coatings | Women in Metallurgy Award

Central Metallurgical Research and Development Institute | Egypt

Dr. Fatma Abdel Mouez is a distinguished researcher at the Central Metallurgical Research and Development Institute (CMRDI), specializing in surface protection, corrosion science, and advanced materials. With a Ph.D. in Physical Chemistry from Ain Shams University, she has over two decades of experience in developing innovative coating technologies and green energy materials. Her research spans electrochemical anti-fouling systems for naval applications, green hydrogen production, and fabrication of advanced electrodes for fuel cell and supercapacitor applications. Dr. Mouez has authored 7 Scopus-Document publications with 65 citations and an h-index of 3, reflecting her impactful scientific contributions. Her pioneering patent, “A novel and eco-friendly technique for synthesis of carbon nanotubes from orange peel” highlights her commitment to sustainable nanotechnology. She has also contributed a chapter to the Springer book Supercapacitors: Current Trends and Future Opportunities. Dr. Mouez’s research excellence bridges material innovation with environmental responsibility, driving advancements in corrosion protection and renewable energy technologies. Her work continues to inspire interdisciplinary collaboration and technological progress in metallurgy and nanomaterials.

Profiles: Scopus | Orcid

Featured Publications

Abdel Mouez, F. (2025). Development and evaluation of superhydrophobic carbon nanotube coatings on maraging steel: Corrosion protection and anti-fouling characteristics. Journal of Alloys and Metallurgical Systems.

Abdel Mouez, F. (2024). Comparing three strategies for surface treatment of Mg coated by hexamethylene diamine tetra methylene phosphonic acid for corrosion protection. Surface and Interface Analysis.

Abdel Mouez, F. (2020). Microstructure, hardness, wear, and magnetic properties of (tantalum, niobium) carbide-nickel-sintered composites fabricated from blended and coated particles. Materials Performance and Characterization.

Abdel Mouez, F. (2017). Challenges on synthesis of carbon nanotubes from environmentally friendly green oil using pyrolysis technique. Journal of Analytical and Applied Pyrolysis.

Abdel Mouez, F. (2011). Fabrication and characterization of copper/diamond composites for heat sink application using powder metallurgy. Natural Science.

Olufisayo Emmanuel Ojo | Sustainable Metallurgy | Best Researcher Award

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Mr. Olufisayo Emmanuel Ojo | Sustainable Metallurgy | Best Researcher Award

Durban University of Technology | South Africa

Mr.Ojo Olufisayo Emmanuel, R.Engr., IEng (UK), M.I.E.T, MNSE. An accomplished Electromechanical and Water Engineer with over 18 years of professional experience in mechanical systems design, project management, and sustainable infrastructure development across international development projects funded by organizations such as the World Bank, USAID, AFD, and atmosfair gGmbH. The engineer holds an MSc (Research) in Mechanical Engineering from the University of KwaZulu-Natal, South Africa, and is currently pursuing doctoral degrees in Mechanical and Industrial Engineering. Their research contributions have significantly advanced the fields of renewable energy, desalination systems, and sustainable water technologies. Publications in collaboration with leading experts have explored renewable-energy-powered reverse osmosis, biodiesel optimization, and membrane desalination modeling. Extensive professional practice includes managing water treatment plant projects, developing asset management frameworks, and leading multidisciplinary teams for infrastructure delivery. Recognized for leadership, innovation, and technical excellence, they have designed and supervised numerous water and energy projects across Africa. Their current research interests focus on renewable energy systems, water treatment, and environmental sustainability. Committed to bridging theory and practice, they continue to contribute to engineering advancement through applied research, innovation, and sustainable technology development for global energy and water security.

Profiles: Google Scholar | Orcid

Featured Publications

Ojo, E. O., & Inambao, F. (2020). A review of renewable power generation using piezoelectric materials. International Journal of Mechanical Engineering and Technology, 10(12), 559–577.

Ojo, E. O., Inambao, F., & Ige, O. E. (2023). Modeling and simulation for a seawater reverse osmosis system. Journal of Materials Engineering, 51(2), 515–535.

Ojo, E. O., & Inambao, F. (2021). A review of renewable energy powered reverse osmosis system for seawater desalination. International Journal of Mechanical and Production Engineering Research and Development, 11(6), 73–90.

Olufisayo, O. E., & Olanrewaju, O. (2024). A review of renewable energy powered seawater desalination treatment process for zero waste. Water, 16(19), 2804.

Ojo, E. O., & Inambao, F. (2024). Additives and blends of biodiesel. Journal of Propulsion Technology, 45(1), 5032–5050.

Baurzhan Amiraliyev | Advanced Materials | Early Career Researcher Award

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 Mr. Baurzhan Amiraliyev | Advanced Materials | Early Career Researcher Award

M. Auezov South Kazakhstan University | Kazakhstan

Amiraliyev Baurzhan Beisenbekovich is the Head of the Laboratory of the Department of Life Safety and Environmental Protection at M. Auezov South Kazakhstan University. He holds a higher education degree and a master’s degree in Chemical Technology from the same university and is currently pursuing doctoral studies  in Chemical Technology of Refractory Non-Metallic and Silicate Materials. With extensive experience in chemical engineering and sustainable materials research, he has led and participated in numerous national projects focusing on innovative construction technologies and industrial waste utilization. His research interests encompass energy-efficient processes, composite cements, and environmental protection. Dr. Amiraliyev has authored multiple publications in Scopus-indexed journals such as the Journal of Composites Science and Technobius, and holds several patents related to advanced material technologies. He has achieved notable recognition, including 1st and 3rd place awards in innovative project competitions in 2013. His scholarly output includes over 3 scientific documents, an h-index of 2, and 11 citations reflecting his contributions to sustainable construction and chemical technology. Collaborating with Belgorod State Technological University and D.I. Mendeleev University of Chemical Technology of Russia, he continues to advance research in eco-efficient materials and resource optimization.

Profiles: Scopus | Orcid

Featured Publications

Amiraliyev, B. B., Taimasov, B. T., Potapova, E. N., Sarsenbaev, B. K., Begentayev, M. M., Dauletiyarov, M. S., Kuandykova, A. E., Abdullin, A. A., Ainabekov, N., & Auyesbek, S. (2025). Heat treatment of clay shales and their utilization as active mineral additives for the production of composite cements. Journal of Composites Science.

Kuandykova, A. E., Taimasov, B. T., Potapova, E. N., Sarsenbayev, B. K., Begentayev, M. M., Dauletiyarov, M. S., Amiraliyev, B. B., Zhanikulov, N. N., & Abdullin, A. A. (2024). Production of Portland cement clinker based on industrial waste. Journal of Composites Science.

Imanaliyev, K., Amiraliyev, B. B., Akmalaiuly, K., Kuldeyev, E., Yunusaliyev, E., & Aymenov, Zh. (2024). Investigation of technological parameters for production of heat-insulating arbolite on the basis of developed slag alkaline composite binders. Technobius.

Amiraliyev, B. B., Abdullin, A. A., Kuandykova, A. E., & Potapova, E. N. (2024). Energy-saving technology for producing white Portland cement clinker. Advances in Chemistry and Chemical Technology, 38(2), 8–11.

Zhantasov, K. T., Lavrov, B. A., Anan’ev, N. I., Zhantasova, D. M., & Amiraliyev, B. B. (2014). Adding carbon-bearing waste to coke in ferrosilicon and zinc-phosphide production. Coke and Chemistry, 57(12), 493–496.