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.

Abbas Saeed Hakeem | Physical Metallurgy | Best Researcher Award

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Assoc. Prof. Dr. Abbas Saeed Hakeem | Physical Metallurgy | Best Researcher Award

King Fahd University of Petroleum and Minerals | Saudi Arabia

Dr Abbas Saeed Hakeem is a distinguished materials scientist and academic specializing in advanced materials, metallurgical engineering, and nanostructured composites. He holds degrees in Materials Science and Metallurgical Engineering and a PhD in Materials Chemistry, with research focusing on Sialon hard materials and the synthesis and characterization of oxynitride and Ln-SiON glasses. His academic career spans extensive teaching and research in ceramics, thermodynamics, alloy production, and advanced material processing. Currently serving as a Senior Scientist and Associate Professor at the Interdisciplinary Research Centre for Hydrogen Technologies & Carbon Management (IRC-HTCM), King Fahd University of Petroleum and Minerals (KFUPM), his research emphasizes the development of hard, light, and hybrid materials, nanocomposites, and advanced sintering techniques. His scholarly impact includes an h-index of 37, over 4,922 citations, and 210 indexed documents. Dr Hakeem’s work bridges academia and industry, contributing significantly to sustainable materials development, hydrogen technologies, and carbon management establishing him as a leading figure in interdisciplinary engineering research.

Profiles: Scopus | Google Scholar | Orcid

Featured Publications

Hakeem, A. S., Al-Aqeeli, N., & Laoui, T. (2015). A review on synthesis, properties, and applications of nanostructured aluminum matrix composites. Materials, 8(9), 6203–6241.

Hakeem, A. S., Laoui, T., Al-Aqeeli, N., & Saheb, N. (2014). Recent advances in metal matrix composites reinforced with carbon nanotubes and graphene: A review. Composites Part B: Engineering, 67, 231–248.

Hakeem, A. S., & Grins, J. (2005). Novel routes for the synthesis and characterization of Ln–Si–O–N and Ln–Si–Al–O–N glasses. Journal of Non-Crystalline Solids, 351(14–15), 1204–1211.

Hakeem, A. S., & Al-Aqeeli, N. (2017). Sintering and characterization of nanostructured aluminum alloys reinforced with ceramic nanoparticles. Journal of Alloys and Compounds, 695, 2826–2835.

Hakeem, A. S., Laoui, T., & Al-Aqeeli, N. (2013). Mechanical behavior and microstructural characteristics of spark plasma sintered aluminum matrix nanocomposites. Materials Science and Engineering: A, 563, 154–162.

 

Anatoliy | Steel Metallurgy | Best Researcher Award

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Mr. Anatoliy | Steel Metallurgy | Best Researcher Award

VNIIMETMASH | Russia

Anatoly Vsevolodovich Protasov is a renowned specialist in metallurgical engineering and mechanical design. He holds qualifications in metalworking and mechanical equipment of metallurgical plants and has developed a long and impactful career at the All-Russian Scientific and Project Designing Institute of Metallurgical Machine-Building (VNIIMETMASH). Over several decades, he has advanced through technical and leadership roles, directing complex projects related to steelmaking equipment and plant modernization. His work has significantly contributed to the design and implementation of steel converters, movable mixers, and secondary steelmaking aggregates installed at major metallurgical enterprises. His research interests include innovations in secondary steelmaking, vacuum degassing, DC arc metal treatment, and the development of mini-mill technologies for long-rolled steel production. He has authored more than 24 scientific and technical publications, including patented inventions, monographs, and textbooks, which have collectively received 17 citations and an h-index of 2. Recognized for his major contributions to metallurgical machine-building, he has received national awards and professional honors. His continuing efforts in research, engineering leadership, and technology development have strengthened the advancement of modern metallurgical equipment and processes.

Profile: Scopus

Featured Publications

Protasov, A. V., Sivak, B. A., & Bershitzky, I. M. (2018). Development and studies of secondary steelmaking units with electric heating of the metal by direct current arc. Evolutions in Mechanical Engineering.

Protasov, A. V. (2019). Technical-economic aspects of the units creation and exploitation for ladle treatment of cast iron and steels. Evolutions in Mechanical Engineering.

Protasov, A. V. (2018). Modern development tendencies of ladle vacuum treatment. Advanced Materials & Metallurgical Science.

Protasov, A. V. (2021). Vacuum treatment of metal in the process of continuous casting. Evolutions in Mechanical Engineering.

Protasov, A. V. (2025). Development of steel ladle vacuum degassing processes. Metallurgist.

 

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.