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.

Alexander Shmatov | Materials Science | Best Researcher Award

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Prof. Alexander Shmatov | Materials Science | Best Researcher Award

Belarusian State Technological University | Belarus

Alexander Shmatov is a distinguished materials scientist and researcher, currently serving as Chief Researcher at Belarusian State Technological University (BSTU) and Professor at Wuhan Textile University . He holds a Ph.D. in Materials Science , D.Sc. in Materials Science and Mechanical Engineering , and has been recognized as a Professor and Academician of the Russian Academy of Natural Sciences . With more than peer-reviewed publications and  patents, his research has received significant global attention, reflected in an h-index of 2 and over 8 citations and documentation is 13. Professor Shmatov has led  national and international research projects and contributed  industrial collaborations, focusing on heat treatment, thermo-chemical treatment, and nanotechnology for material strengthening. His work emphasizes the development of efficient, economical, and environmentally friendly methods for enhancing steels, hard alloys, and diamond-based tools. He has authored four monographs and two tutorials, and actively participated in editorial and scientific committees, including the International Scientific and Technical Conference “TOP.” His contributions have led to practical industrial applications in enterprises, generating significant economic impact. Recognized with multiple awards for research excellence, Shmatov continues to advance material science through innovative technologies, process optimization, and international collaborations, reinforcing his role as a global leader in materials engineering.

Profiles: Scopus | Orcid

Featured Publications

Shmatov, A., & Puteri, N. (2025). Air-sintered copper-aluminum alloy inner electrodes. Journal of Materials Science: Materials in Electronics, 36(14), 1–10.

Shmatov, A., Chien, C. F., & Ku, C. T. (2025). Studies on CuNi alloy with zinc protective layer sintered in air. ES Manufacturing Materials, 2025(June), 1–8.

Shmatov, A., Lee, W. H., & Kuo, T. C. (2024). Study on the fabrication of high-quality hafnium oxide thin films using spatial rotated atomic layer deposition and supercritical fluids treatment. Journal of Vacuum Science & Technology A, 42, 062409.

Shmatov, A., Divya, P., & Kuo, T. C. (2024). A study on environmentally friendly electroless-plating. Journal for Electrochemistry and Plating Technology, 2024, 1–8.

Shmatov, A., Lee, W. H., & Yu, Y. W. (2023). Increasing the conductivity of sintered powder Al–Cu material due to electroplating of aluminium particles with copper. Metal Science and Heat Treatment, 65(5–6), 1–7.

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.

Pallab Sarmah | Powder Metallurgy | Editorial Board Member

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Dr. Pallab Sarmah | Powder Metallurgy | Editorial Board Member

University of Johannesburg | South Africa

Dr. Pallab Sarmah is a Post-Doctoral Research Fellow at the Department of Mechanical and Industrial Engineering Technology, University of Johannesburg, South Africa. He obtained his Ph.D. in Composite Materials and Advanced Machining, following an M.Tech. in Computer Integrated Manufacturing and Automation, and a B.E. in Mechanical Engineering. His primary research interests include metal matrix composites, non-conventional machining processes, additive manufacturing, and sustainable materials processing. Dr. Sarmah has held academic and research positions at reputed institutes and contributed to several sponsored projects focused on energy and materials innovation. He has published extensively in peer-reviewed international journals, conferences, and edited books, with an h-index of 6, over 21 research documents, and around 102 citations. His editorial and peer-review roles in recognized journals demonstrate his scholarly influence in the engineering community. He has co-edited books with global publishers such as Elsevier and De Gruyter, contributing to advancements in hybrid and intelligent manufacturing technologies. Through his research, Dr. Sarmah continues to promote innovation in machining and material development for industrial and sustainable applications.

Profile: Scopus

Featured Publications

Sarmah, P., Shailendra, P., & Gupta, K. (2025). Fabrication of novel hybrid AlSiC–ZrO₂ composites via powder metallurgy route and intelligent modeling for their microhardness. Ceramics, 8(3), 91–101.

Barman, P., Kalita, A., Sarmah, P., Bhattarai, S., Bordoloi, S., & Khalid, F. (2025). Governance strategies, policy measures, and regulatory framework for hydrogen energy in India: A comprehensive review. International Journal of Hydrogen Energy, 140, 505–518.

Gupta, K., Sarmah, P., & Shailendra, P. (2025). Analysis of recent research and innovations in vibration-assisted hybrid machining processes. Journal of Engineering and Technological Sciences, 57(2), 125–138.

Sarmah, P., & Gupta, K. (2024). Recent advancements in fabrication of metal matrix composites: A systematic review. Materials, 17(8), 4635–4649.

Sarmah, P., & Patowari, P. K. (2023). Machinability study of Al6063-based MMCs with SiC reinforcement particles using WEDM process. Materials and Manufacturing Processes, 38(7), 783–796.

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.

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.