Владимир Бажин | Non-Ferrous Metals | Research Excellence Award

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Prof. Владимир Бажин | Non-Ferrous Metals | Research Excellence Award

Горный университет | Russia

Prof. Vladimir Yu. Bazhin is a Doctor of Technical Sciences and Professor, currently serving as Head of the Department of Metallurgy at a leading mining and engineering university. He holds a degree in Metallurgical Engineering and has completed additional education in management and engineering economics. He has more than 35 years of experience integrating industrial practice, academic leadership, and international project activity in the field of aluminum metallurgy. His professional background includes senior engineering, managerial, and academic positions related to electrolytic aluminum production, melting and casting of high-alloy aluminum alloys, aluminum rolling and foil production, and automation of complex metallurgical processes. He has played key roles in the development and implementation of large-scale industrial and research projects in the aluminum industry. Prof. Bazhin is the author  monographs, 165 scientific documents, and 80 patents. His total citation count is 1,156, with a current h-index of 15. He has supervised 20 PhD candidates and more than 80 graduate engineers. His research interests focus on aluminum electrolysis, advanced aluminum alloys, metallurgical process automation, and industrial safety. He serves as an expert and member of multiple scientific and professional councils and editorial boards. His achievements have been recognized through numerous professional and academic awards, reflecting a significant contribution to metallurgical science, engineering education, and industrial innovation.

 

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Citations 1156

Documents 165

h-index 15

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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.

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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.

Sharath Kumar | Extractive Metallurgy | Editorial Board Member

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Dr. Sharath Kumar | Extractive Metallurgy | Editorial Board Member

Vijayanagara Sri Krishandevaraya University Ballari, Karnataka India

Dr. P. Sharath Kumar is an accomplished academic and researcher in the field of Mineral Processing, currently serving as an Assistant Professor at Vijayanagara Sri Krishnadevaraya University, Karnataka, with over nine years of teaching and research experience. He holds a Ph.D. in Mineral Processing, an M.Tech in Metallurgical Engineering from NIT Karnataka, Surathkal, and a B.E. in Mechanical Engineering from VTU Belagavi. His research interests include iron ore beneficiation, magnetic separation, reduction roasting, pelletization of iron ore concentrates, and modeling and simulation of beneficiation plants. . He has successfully guided several postgraduate students and led multiple government-funded and industrial consultancy projects in mineral beneficiation and metallurgical applications. He is a life member of the Indian Institute of Mineral Engineers, Mining Engineering Association of India, and the Institution of Engineers (India). Recognized for his professional excellence, Dr. Kumar has received the Prof. C. Mahadevan Award (Young Mineral Engineer) and the Young Engineer Award from the Institution of Engineers, Kolkata. His work continues to promote innovation and sustainability in mineral and metallurgical engineering.

Profile: Google Scholar 

Featured Publications

Swamy, A. K., Nikkam, S., & Palthur, S. K. (2022). Recovery of hematite from banded hematite quartzite of southern India by magnetic separation and reverse flotation. Minerals, 12(9), 1095.

Kumara Swamy, A., Suresh, N., & Sharath Kumar, P. (2022). Resource management and utilization of lean grade iron ore resources of Karnataka, India. Journal of Mines, Metals and Fuels, 70(5), 171–181.

Kumar, P. S., Ravi, B. P., Sivrikaya, O., & Nanda, R. K. (2019). The study of pelletizing of mixed hematite and magnetite ores. Science of Sintering, 51(1–3), 1–12.

Kumar, P. S., Ravi, B. P., Sreedhar, G. E., & Naganoor, P. C. (2016). Modeling and optimization of vertical pulsating high gradient magnetic separator for iron ore slime processing using response surface methodology. International Journal of Mineral Processing and Extractive Metallurgy, 1(2), 19–27.

Ayyakkannu, A., Kumar, P. S., Naganoor, P. C., & Hatti, B. (2020). Eco-efficiency of metallurgical value-added process facilities for sustainable production. Applied Ecology and Environmental Sciences, 8(6), 505–508.

Maral Dyussebekova | Non-Ferrous Metals | Women Researcher Award

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Dr. Maral Dyussebekova | Non-Ferrous Metals | Women Researcher Award

JSC Institute of Metallurgy and Ore Beneficiation |  Kazakhstan

Dr Maral Adel’bekovna Dyussebekova is a metallurgical engineer and researcher with over 13 years of professional experience in the processing of copper-bearing raw materials. She currently serves as a Researcher at the JSC Institute of Metallurgy and Enrichment in Almaty, where her work focuses on the pyrometallurgical processing of copper-bearing sulfide concentrates and on developing smelting and slag-depletion technologies to minimise copper losses. Prior to this, she held quality-management roles in major Kazakh institutions (including at the Kazakh-British Technical University) where she oversaw laboratory transitions from standards to newer national calibrations. Academically, she holds a PhD in Metallurgical Engineering from Satbayev University and a Master’s degree from the Kazakh-British Technical University. Her research output includes peer-reviewed journal articles and conference proceedings, such as “Study of the Effect of Fluxing Ability of Flux Ores on Minimizing of Copper Losses with Slags during Copper Concentrate Smelting”. Her h-index is 2, with a total citation count of 11. Her research interest covers smelting thermodynamics, slag and matte chemistry, flux ore behaviour, and resource-efficient processing of non-ferrous and precious-metal raw materials. She has contributed patents and industrial-applied studies, and seeks to bridge academic research and practical metallurgical engineering. In conclusion, Dr Dyussebekova is a dedicated applied researcher advancing sustainable and efficient copper processing technologies.

Profiles: Scopus | Google Scholar

Featured Publications

Dyussebekova, M., Kenzhaliyev, B., Kvyatkovskiy, S., Kozhakhmetov, S., & Semenova, A. (2022). Study of the effect of fluxing ability of flux ores on minimizing of copper losses with slags during copper concentrate smelting. Metals, 12(8), 1240.

Ospanov, Y. A., Kvyatkovskiy, S. A., Kozhakhmetov, S. M., Sokolovskaya, L. V., Semenova, A. S., Dyussebekova, M., & Shakhalov, A. A. (2022). Slag heterogeneity of autogenous copper concentrates smelting. Canadian Metallurgical Quarterly.

Kenzhaliyev, B. K., Kvyatkovskiy, S. A., Dyussebekova, M. A., Semenova, A. S., & Nurhadiyanto, D. (2022). Analysis of existing technologies for depletion of dump slags of autogenous melting. Complex Use of Mineral Resources, 4, 323.

Dyussebekova, M. (2020). Processing of various copper sulfide concentrates by Vanyukov smelting. Proceedings of the International Conference on Engineering, Technology and Vocational Education (ICETVE 2020), 70–71.

Dyussebekova, M. A., Kvyatkovskiy, S. A., Kenzhaliyev, B. K., & Nurhadiyanto, D. (2021). Dependence of the increased content of copper and magnetite in the slags on the composition of the smelting products. Proceedings of the International Innovation Arsvot Malaysia (IAM2021), 387.