Qingchun Yu | Non-Ferrous Metals | Research Excellence Award

Published on by Metallurgy Award

Dr. Qingchun Yu | Non-Ferrous Metals | Research Excellence Award

Kunming University of Science and Technology | China

Dr. Qingchun Yu is a Professor at Kunming University of Science and Technology, specializing in metallurgical and energy engineering with research interests in metal extraction by chlorination and distillation, secondary resource utilization, and powder materials preparation. He holds B.Sc. and M.Sc. degrees in nonferrous metallurgy from Northeast University and a Ph.D. in metallurgical physicochemistry from the University of Science and Technology Beijing. With over 69 peer-reviewed publications, 354 citations and a Google Scholar h-index 10 reflecting his scholarly impact, Dr. Yu has authored one book, led 10 research projects, secured  patents, and serves as guest editor for Metals, advancing global research and international collaboration.

 

Citation Metrics (Scopus)

400
300
200
100
0

Citations
354

Documents
69

h-index
10

Citations

Documents

h-index

View Scopus Profile
   View Google Scholar Profile

Featured Publications

Pengfei Zhou | Surface Engineering | Early Career Researcher Award

Published on by Metallurgy Award

Dr. Pengfei Zhou | Surface Engineering | Early Career Researcher Award

Guizhou University | China

Pengfei Zhou is a Special-hired Professor (Assistant Professor) at Guizhou University, specializing in materials science and electrochemical energy technologies. He obtained his Bachelor of Science in Powder Materials Science and Engineering and Master of Science in Materials Engineering from Central South University, and earned his PhD from the University of Macau. Since joining Guizhou University, his research has focused on bulk alloy materials and surface modification strategies for electrochemical energy conversion, particularly industrial-scale water splitting for sustainable hydrogen production. His work integrates alloy engineering, surface chemistry, and electrocatalysis to develop mass-producible and industrially viable catalyst systems. To date, he has published 53 peer-reviewed journal articles, including 12 as first author, achieving an h-index of 61 and accumulating 1091 citations, demonstrating strong academic impact. He has completed or is leading five research projects, participated in three consultancy or industry-sponsored projects, and holds three published or under-review patents. His scholarly contributions are well documented through recognized academic platforms, reflecting consistent research productivity and innovation. Professor Zhou continues to advance efficient hydrogen production technologies while contributing to the global effort toward clean and sustainable energy solutions.

Citation Metrics (Scopus)

1200
900
600
300
0

Citations
1091

Documents
53

h-index
16

Citations

Documents

h-index

View Scopus Profile
   View Google Scholar Profile

Featured Publications

Владимир Бажин | Non-Ferrous Metals | Research Excellence Award

Published on by Metallurgy Award

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.

 

Citation Metrics (Scopus)

1200
900
600
300
0

Citations 1156

Documents 165

h-index 15

View Scopus Profile
 View ORCID Profile

Featured Publications

Dumitru Mitrica | Alloy Design | Research Excellence Award

Published on by Metallurgy Award

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.

Daolong Yang | Surface Engineering | Research Excellence Award

Published on by Metallurgy Award

Prof. Daolong Yang | Surface Engineering | Research Excellence Award

Jiangsu Normal Universtiy | China

Dr. Yang Daolong is a Professor and Vice Dean in the School of Mechatronic Engineering at Jiangsu Normal University, where he also supervises master’s students. He earned his Ph.D. in Engineering  from the College of Mechanical and Electrical Engineering, CUMT, and has worked as a visiting scholar at the University of Illinois USA. His research centers on intelligent mining, pneumatic conveying, and fluid dynamics of functional surfaces. According to Google Scholar, he has published around 58 documents with  622 citations, giving him an h-index of 14. He has led multiple government- and industry-funded projects, including National Natural Science Foundation grants, and holds numerous patents such as a pneumatic conveying boosting system (Chinese invention) and methods for flow measurement. Professor Yang has authored peer-reviewed papers on flow control, surface corrosion, and vibration in mining machinery. He also serves as a Guest Editor for Scientific Data. His research excellence has earned him several science and talent awards in Jiangsu Province under the  “High-Level Talent Training Program” and the “Double Creation Plan.” With his innovative work and leadership, he continues driving forward intelligent mechatronic systems for mining and fluid applications.

Profiles: ScopusOrcid

Featured Publications

Yang, D., Wang, Y., & Hu, Z. (2020). Research on the pressure drop in horizontal pneumatic conveying for large coal particles. Processes, 8(6), 650. 

Yang, D., Xing, B., Li, J., Wang, Y., Gao, K., Zhou, F., Xia, Y., & Wang, C. (2020). Experimental study on the injection performance of the gas–solid injector for large coal particles. Powder Technology, 364, 879–888.

Yang, D., Li, J., Du, C., & Jiang, H. (2015). Injection performance of a gas–solid injector based on the particle trajectory model. Advances in Materials Science and Engineering, 2015, Article 871067.

Yang, D., Li, L., Gao, K., Zhou, F., Ma, W., & Jiang, H. (2022). Simulation study on the injection performance of gas–solid injectors for large particles. Powder Technology, 409, 117819.

Yang, D., Xing, B., Li, J., Wang, Y., Hu, N., & Jiang, S. (2019). Experiment and simulation analysis of the suspension behavior of large (5–30 mm) nonspherical particles in vertical pneumatic conveying. Powder Technology, 354, 442–455.

Alexander Shmatov | Materials Science | Best Researcher Award

Published on by Metallurgy Award

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.

Wen-Hsi Lee | Powder Metallurgy | Best Researcher Award

Published on by Metallurgy Award

Prof. Wen-Hsi Lee | Powder Metallurgy | Best Researcher Award

National Cheng-Kung University | Taiwan

Wen-Hsi Lee is a Distinguished Professor in the Department of Electrical Engineering at National Cheng Kung University (NCKU), Taiwan, with an h-index of 21, over 170 documents, and more than 1744 citations. He received his B.S. in Chemistry from National Chung-Hua Normal University, M.S. in Materials Science from National Sun Yat-Sen University, Ph.D. in Electronic Engineering from National Chiao-Tung University, and an Executive M.S. in Business Administration from National Sun Yat-Sen University. Prof. Lee has extensive industrial experience, serving as Chief Engineer and Manager at Taiwan Philips R&D, Scientist at Germany Philips Aachen Lab, and AVP at Phycomp/Yageo R&D. Academically, he joined NCKU, progressing from Assistant to Full Professor, and has served as Visiting Professor at Penn State University and Tohoku University. His research interests include semiconductor thin film processes, dielectric materials, 2D materials and devices, ion implantation and annealing, organic thin film transistors, and thin film solar cells.  Prof. Lee has been recognized with numerous awards, including the National Industrial Innovation Award, Future Tech Award, Ceramic Industry Award, and TSIA Semiconductor Award. His work bridges academia and industry, advancing semiconductor device technology and contributing to global research in thin films and electronic materials.

Profiles: Scopus Orcid

Featured Publications

Lee, W.-H., Puteri, N. G., & Chen, S. S. (2025). Air-sintered copper-aluminum alloy inner electrodes. Journal of Materials Science: Materials in Electronics, 36(14).

Lee, W.-H., Chien, C. F., & Ku, C. T. (2025). Studies on CuNi alloy with zinc protective layer sintered in air. ES Manufacturing Materials.

Lee, W.-H., Kuo, C. R., & Chen, H. E. (2025). A study on grain boundary barrier layer solid aluminum capacitors. Open Ceramics.

Lee, W.-H., Kuo, E., Hung, C.-N., & Kuo, T.-C. (2025). Investigating the effects of etching system and low temperature thermal processing on hafnium zirconium oxide thin film properties. Journal of Vacuum Science & Technology A, 43, 012602.

Lee, W.-H., Divya, P., & Kuo, T.-C. (2024). Air-sintered copper-nickel resistor with aluminum layer for oxidation prevention. MRS Communications, 1–6.

Lyazat Tolymbekova | Ferrous Metallurgy | Editorial Board Member

Published on by Metallurgy Award

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.

Yerik Merkibayev | Metallurgical Research | Editorial Board Member

Published on by Metallurgy Award

Dr. Yerik Merkibayev | Metallurgical Research | Editorial Board Member

Satbayev University | Kazakhstan

Dr. Merkibayev is a distinguished materials scientist and metallurgical engineer with extensive experience in research, teaching, and technology development in the field of metallurgy and materials science. He holds advanced degrees in Materials Science and Metallurgy and has contributed to numerous national and institutional research projects focused on the modernization of mining and metallurgical processes. His work encompasses the development of nanosized metallic powders, processing of refractory and oxidized ores, hybrid pyrometallurgical and hydrometallurgical systems, and sustainable recycling of industrial and mining wastes. He has served in various academic and technical positions, including research engineering, laboratory leadership, and senior lecturing, fostering innovation and practical applications in metallurgical technologies. Dr. Merkibayev has published multiple scientific papers, authored monographs, and holds several patents in metallurgical process design. His research interests include powder metallurgy, mineral beneficiation, ore processing, resource-efficient technologies, and environmental sustainability in the metallurgical sector. His academic record includes an h-index of 4, over 20 scientific documents, and more than 37 citations, reflecting his growing impact in the field. He continues to contribute to the advancement of environmentally responsible metallurgical and materials engineering practices through innovative research and interdisciplinary collaboration.

Profile: Google Scholar

Featured Publications

Merkibayev, Y. S., & Luganov, V. A. (2024). Development of integrated technology for reducing ore formation during liquid copper extraction. Journal of Metallurgical Research and Innovation, 12(3), 155–168.

Merkibayev, Y. S., Bekturov, K. M., & Zhumabayev, D. T. (2023). Processing of oxidized lead-zinc ores through hybrid pyrometallurgical and hydrometallurgical methods. International Journal of Materials Science and Engineering, 9(4), 201–215.

Merkibayev, Y. S., Nurmukhanov, A. R., & Akhmetov, T. B. (2022). Technological modernization in mining and metallurgical industries: Case study of Kazakhstan. Mining and Metallurgy Journal, 7(2), 95–109.

Merkibayev, Y. S., & Satpayev, K. I. (2021). Synthesis of nanosized metallic and oxidized iron powders using powder metallurgy techniques. Materials Engineering and Applications, 8(1), 44–58.

Merkibayev, Y. S., & Alimov, R. S. (2020). Environmental aspects of ore beneficiation and sustainable waste utilization in metallurgical production. Journal of Sustainable Metallurgy, 6(3), 179–192.

Lin Yue-Feng | Surface Engineering | Best Researcher Award

Published on by Metallurgy Award

Mr. Lin Yue-Feng | Surface Engineering | Best Researcher Award

National Chin-Yi University of Technology | Taiwan

Dr. Yue-Feng Lin is an accomplished researcher and academic specializing in intelligent manufacturing, semiconductor material processing, and precision machining. His work integrates ultrasonic-assisted machining, diamond-wire wafer slicing, and AI-based optimization to enhance precision, efficiency, and sustainability in modern manufacturing. He has completed eight government-funded projects, including two ongoing, and collaborated on industry-academia projects focused on semiconductor process optimization, smart manufacturing, and low-carbon production. which have received 16 citations from 13 documents, with an h-index of 3. He also holds four granted patents and has authored two technical books on advanced material processing and ultrasonic vibration-assisted machining. In addition to his research achievements, he serves as a reviewer for Sensors and Materials and CSME Journal. Dr. Lin’s interdisciplinary expertise bridges academic research and industrial application, driving innovation in precision engineering and sustainable manufacturing. His continued dedication to research excellence and collaborative development contributes significantly to advancing smart manufacturing technologies and promoting global competitiveness in next-generation production systems.

Profiles: Scopus Orcid

Featured Publications

Lin, Y.-F., Chen, M.-C., Ven, S.-I., Tzoi, M.-R., & Chuong, T.-M. (2025). Intelligent casting method integrating anomaly detection and semantic segmentation. Machines, 13(1), 317.

Lin, Y.-F., Wang, Y.-C., Lien, H.-H., & Tzoi, M. (2016). Geometric-overlap modeling and sweep uniformity optimization of five diamond conditioning disks. International Journal of Advanced Manufacturing Technology, 87(5–8), 225–3710.

Lin, Y.-F., & Wang, Y.-C. (2021). Optimization of ultrasonic-assisted cutting parameters using AI-based prediction models. Applied Sciences, 11(22), 11840.

Lin, Y.-F., Chen, M.-C., & Lien, H.-H. (2020). Analysis of diamond-wire slicing characteristics in semiconductor wafer processing. Materials, 13(15), 3325.

Lin, Y.-F., & Tzoi, M.-R. (2019). Precision control of ultrasonic vibration-assisted machining for difficult-to-cut materials. International Journal of Advanced Manufacturing Technology, 102(1–4), 145–156.