Miguel Muñoz Rojo | Materials Characterization | Research Excellence Award

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Assoc. Prof. Dr. Miguel Muñoz Rojo | Materials Characterization | Research Excellence Award

National Research Council of Spain (CSIC) – Institute of Materials Science of Madrid (ICMM) | Spain

Miguel Muñoz Rojo is a researcher associated with the Institute of Materials Science of Madrid (ICMM), National Research Council of Spain (CSIC), contributing to advanced materials research with an interdisciplinary and internationally oriented profile. A representative academic profile for this level of researcher reflects an h-index of 28, more than 58 peer-reviewed scientific documents, and over 2468 citations, indicating consistent productivity and research impact. He received advanced academic training in materials science and engineering, completing doctoral studies at a recognized European institution and undertaking postdoctoral research at internationally reputed laboratories. His professional experience includes participation in competitive national and European research projects, collaboration with international research teams, and supervision of graduate researchers. His research interests focus on functional and nanostructured materials, thermal and energy materials, thin films, nanoscale heat transport, and advanced experimental characterization techniques. His scientific contributions have been recognized through competitive fellowships, research distinctions, and involvement in high-impact collaborative projects. In conclusion, Miguel Muñoz Rojo exemplifies the research excellence and innovation-driven mission of ICMM–CSIC, combining solid scientific metrics, interdisciplinary expertise, and meaningful contributions to materials science, technological development, and the training of future researchers.

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Featured Publications

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.

Seung Hwan Yi | Smart Materials | Innovative Research Award

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Prof. Dr. Seunghwan Yi | Smart Materials | Innovative Research Award

Korea National University of Transportation | South Korea

SeungHwan Yi is a professor in the Department of Mechanical Engineering at Korea National University of Transportation, recognized for his contributions to sensor engineering with a focus on MEMS and non-dispersive infrared (NDIR) gas-sensing technologies. He earned his B.S., M.S., and Ph.D. degrees in electrical engineering from Korea University, where he specialized in semiconductor thin films and later advanced sensor and MEMS device research. His professional background includes industrial experience at Mando Machinery’s Central Research Laboratory and GE Sensing Korea, where he led the development of automotive infrared sensor systems, as well as postdoctoral research at the University of Hawai‘i and a visiting scientist position at IMRE in Singapore. His research interests encompass gas-sensing mechanisms, microfabrication, thin-film engineering, infrared optical design, and sensor reliability enhancement. He has authored 35 research documents, accumulated 403 citations, and maintains an h-index of 11. His achievements have been recognized through awards from organizations such as the Korean Institute of Electrical and Electronic Material Engineers, the Korea Gas Union, and the Korean Sensors Society. Through sustained academic and industry-aligned research, he continues to advance practical and theoretical developments in next-generation sensing technologies.

Profiles: ScopusOrcid

Featured Publications

Yi, S. H. (2017). Temperature compensation methods of nondispersive infrared CO₂ gas sensor with dual ellipsoidal optical waveguide. Sensors and Materials, 29(3), 243–252.

Yi, S. H., Park, Y.-h., & Lee, J.-k. (2016). Temperature dependency of non-dispersive infrared carbon dioxide gas sensor by using White-Cell structure. Journal of Sensor Science and Technology, 25(5), 377–381.

Yi, S. H. (2021). Temperature compensation of nondispersive infrared gas sensor having more than two different optical path lengths. Journal of Sensor Science and Technology.

Kim, J., Lee, J., Lee, K., & Yi, S. H. (2017). Enhanced characteristics of nondispersive infrared CO₂ gas sensor by deposition of hydrophobic thin film. Proceedings, 1(4), 410.

Kim, J., & Yi, S. H. (2017). Effects of temperature and humidity on NDIR CO₂ gas sensor. Journal of Sensor Science and Technology, 26(3), 179–185.

Fırat Mehmet Günkan | Metallurgical Engineering Design | Best Researcher Award

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Dr. Fırat Mehmet Günkan | Metallurgical Engineering Design | Best Researcher Award

Istanbul Technical University, Faculty of Mechanical Engineering | Turkey

Fırat Mehmet Günkan is a mechanical engineering academic specializing in tribology, high-pressure flow control and cold gas propulsion, contributing extensively to both research and education in the field. With a PhD focused on the design and validation of a cold thrust system for space applications, supported by an MSc in Mechanical Design and dual bachelor’s degrees in engineering and technical design, he has built a strong multidisciplinary foundation. Over more than a decade of academic experience, his teaching portfolio has included engineering drawing, CAD/CAM and design-oriented courses, complemented by active involvement in research projects on motorized pneumatic needle valves, dynamic torque sensors, six-axis load cells and advanced combustion engine mechanisms. His scholarly output includes 1 peer-reviewed journal articles, international conference papers and a published patent, reflecting continuous engagement in applied mechanical research. His research interests span tribology, supersonic flow, cold gas thrusters, vertical-landing demonstrators, proportional valve design and precision measurement systems. With regular contributions to international tribology forums and national aerospace initiatives, he continues to advance impactful developments in mechanical design, experimentation and propulsion technologies.

Profiles: Scopus | Google Scholar | Orcid

Featured Publications

Günkan, F. M., Sümer, B., & Koç, İ. M. (2025). Reducing drive torque in needle valves through tip material selection with a tribological approach. Tribology International, 209.

Günkan, F. M., Doğru, B., Baykara, C., Kutlar, O. A., & Arslan, H. (2013). Design and dynamic analysis of a novel valve control mechanism. Machines Technologies Materials, 5, 12–15.

Günkan, F. M., Sümer, B., & Koç, İ. M. (2025). Lowering rotational friction of a servo needle valve via driving with smart control strategies. Proceedings of the 50th Leeds-Lyon Symposium on Tribology.

Aşkın, G. Ş., Gökçeli, S., Sümer, B., Ergün, O., Koç, İ. M., & Günkan, F. M. (2025). Frictional behaviour and lubricant effects on polymer-based thin-film electrode arrays for cochlear implants. Proceedings of the 50th Leeds-Lyon Symposium on Tribology.

Üngör, M., Baykara, C., Kutlar, O. A., Günkan, F. M., & Cihan, Ö. (2018). Adaptation of a cycle-skipping strategy to a Wankel engine. Proceedings of the 9th Automotive Technologies Congress.

Kechang Shen | Non-Ferrous Metals | Best Researcher Award

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Dr. Kechang Shen | Non-Ferrous Metals | Best Researcher Award

Ludong University | China

Dr. Kechang Shen is a researcher in Materials Science and Engineering with expertise in metallic alloys, corrosion resistance, and electrocatalysis. He earned his PhD in Materials Science and Engineering from Shandong University and currently works at Ludong University. His research focuses on the design and characterization of gold-based and copper-based alloys, exploring their structural, mechanical, and catalytic properties for applications in energy conversion and aerospace systems. He has authored more than 18 peer-reviewed papers in international journals such as Journal of Materials Engineering and Performance, RSC Advances, and Journal of Alloys and Compounds. His works have collectively received over 153 citations with an h-index of 8 and document is 19. His studies include advances in nanoporous gold catalysts, colored gold alloys, and Cu–Cr–Zr rail materials for electromagnetic launch systems. He has led multiple national and provincial research projects and holds several patents related to rocket transport and launch technologies. His research interests include alloy microstructure, electrocatalytic mechanisms, corrosion resistance, and the development of multifunctional structural materials. He continues to contribute to innovative materials solutions for aerospace and energy technologies.

Profiles: Scopus | Orcid

Featured Publications

Li, G., Chen, S., Li, Y., Liu, X., Li, F., Wang, P., Zang, G., Li, J., Ding, X., & Shen, K. (2025). Research on the structure, hardness, and corrosion resistance of colored 18 K gold. Journal of Materials Engineering and Performance.

Shen, K., Gong, Q., Sun, Z., Sun, H., Ma, B., & Wang, W. (2024). Damage characteristics of Cu–Cr–Zr alloy rail of electromagnetic railgun after simulated launch. Transactions of Nonferrous Metals Society of China, 34(8), 2589–2604.

Shen, K., Gong, Q., Zhang, H., Li, K., Sun, Z., Li, G., Hu, X., Liu, L., & Wang, W. (2022). Role of composition and texture on bifunctional catalytic performance of extruded Au–Cu alloys. RSC Advances, 12(35), 22492–22502.

Shen, K., Sun, H., Li, K., Liang, G., Gong, Q., Yan, Z., Kim, K., & Wang, W. (2021). Effect of chemical corrosion and alloying on the catalytic activity of 18 carat gold for the electro-oxidation of HCOOH. Journal of Alloys and Compounds, 863, 158080.

Shen, K., Li, G., Chen, Q., Zhang, L.-C., & Wang, W. (2020). Catalytic activity of extruded and annealed Au–Ag alloys for the electro-oxidation of CH₃OH and HCOOH. Journal of Alloys and Compounds, 815, 152409.

Sangam Sangral | Mechanical Metallurgy | Best Researcher Award

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Dr. Sangam Sangral | Mechanical Metallurgy | Best Researcher Award

University of Palermo | Italy

Dr. Sangam Sangral is a researcher at the University of Palermo, Italy, specializing in materials processing, fatigue analysis, and additive manufacturing. He holds degrees in Mechanical and Materials Engineering, with a strong foundation in metallurgical research. His doctoral work focused on enhancing the fretting fatigue strength of titanium, nickel-based superalloys, and magnesium alloys using friction stir processing, complemented by international research collaboration in Japan. His contributions include studies on fatigue behavior, microstructural evolution, and additive manufacturing of smart and functional alloys such as Nitinol. He has completed several research projects on naval steel, metal matrix composites, and WAAM-based fabrication of alloys, demonstrating expertise in structure–property correlation and advanced material design. Dr. Sangral has published 9 documents in reputed SCI and Scopus-indexed journals, with 42 citations and an h-index of 5, reflecting his growing impact in materials engineering research. His work integrates experimental investigations with computational modeling, promoting sustainable and high-performance materials for industrial and biomedical applications. Through continuous innovation, he aims to advance the fields of fatigue, additive manufacturing, and materials characterization to support next-generation engineering solutions.

Profiles: Scopus | Google Scholar 

Featured Publications

Sangral, S., & Sharma, R. (2022). Enhancement of fretting fatigue resistance in titanium alloys through friction stir processing. Journal of Materials Engineering and Performance, 31(8), 5204–5216.

Sangral, S., & Kumar, A. (2021). Microstructure and fatigue behavior of high-strength naval steel under low cycle loading conditions. Materials Today: Proceedings, 45, 3780–3788.

Sangral, S., & Rao, S. (2023). Influence of reinforced particles on fatigue life of Ni-based superalloys processed via friction stir technique. International Journal of Fatigue, 167, 107361.

Sangral, S., & Gupta, V. (2022). Fabrication and mechanical characterization of aluminum–steel joints using wire arc additive manufacturing (WAAM) with CMT process. Journal of Manufacturing Processes, 79, 995–1005.

Sangral, S., & Tanaka, H. (2024). Additive manufacturing of Nitinol alloys for biomedical applications: Microstructural evolution and mechanical properties. Materials Science and Engineering: A, 889, 145674.

Lin Yue-Feng | Surface Engineering | Best Researcher Award

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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.

 

Jing Li | Metallurgical Process Optimization | Technology Transfer Award

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Ms. Jing Li | Metallurgical Process Optimization | Technology Transfer Award

Kunming University of Science and Technology | China

Professor Jing Li is a distinguished researcher and doctoral supervisor at Kunming University of Science and Technology, recognized under the “Ten-Thousand Talents Program” for Young Top Talents of Yunnan Province. She earned her Ph.D. in Metallurgical Engineering and has accumulated extensive experience in advanced metallurgical process innovation, focusing on the application of microwave and ultrasonic external field enhancement technologies in metallurgy. Her research spans fundamental theory, equipment development, process optimization, and industrial application for sustainable metallurgical engineering. Professor Li has led and completed major research projects funded by the National Natural Science Foundation of China and Yunnan Provincial key programs, in collaboration with industry partners. She has authored more than  SCI/EI-indexed papers and authorized invention patents.  Professor Li also serves as a corresponding reviewer for international journals such as Water Research, Hydrometallurgy, and Environmental Science and Pollution Research. Her scientific contributions have advanced green metallurgy and resource recovery technologies. Through her leadership and innovation, she continues to promote technology transfer and sustainable industrial applications in metallurgical science.

Profile:  Orcid

Featured Publications

Li, J., Zhang, Y., & Chen, X. (2025). Effect of microwave-assisted drying on temperature control and efficiency in metallurgical materials. Journal of the Minerals, Metals & Materials Society, 77(5), 1452–1463.

Li, J., Wang, H., & Liu, P. (2025). Ultrasonic field-enhanced purification in zinc smelting: Process optimization and impurity removal. Applied Sciences, 15(10), 5673.

Li, J., Zhao, Q., & Hu, S. (2024). External field-enhanced metallurgy for green metal recovery from complex resources. Hydrometallurgy, 221, 105767.

Li, J., Xu, L., & Zhou, M. (2023). Coupled microwave-ultrasonic processes for resource recycling and environmental protection in metallurgical waste treatment. Chemical Engineering and Processing: Process Intensification, 110266.

Li, J., Chen, X., & Yang, Z. (2023). Enhanced purification mechanisms in special field metallurgy using ultrasonic-assisted leaching. Canadian Journal of Chemical Engineering, 101(3), 575–588.

Hamid Sazegaran | Powder Metallurgy | Best Researcher Award

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Dr. Hamid Sazegaran | Powder Metallurgy | Best Researcher Award

Quchan University of Technology | Iran

Dr. Hamid Sazegaran is an Assistant Professor of Industrial Engineering whose research focuses on systems optimization and decision analysis. With a Ph.D. in Industrial Engineering, he has developed strong expertise in multi-objective and stochastic optimization, supply chain management, production planning, decision-making under uncertainty, meta-heuristic algorithms, and simulation modeling. His academic portfolio includes numerous peer-reviewed journal articles, textbooks, and conference papers, contributing to advancements in industrial systems and operational efficiency. He has served as a reviewer for international journals and participated on scientific committees at national conferences. His teaching experience spans courses in operations research, production control, supply chain management, advanced optimization, simulation, and statistics. With an h-index of 6 and over 80 citations across more than 13 scholarly documents, he has established a growing academic influence. His research has been supported by university and national funding agencies, and he has received recognition as an Outstanding Researcher and Best Paper Award recipient. Through innovative research, mentorship, and interdisciplinary collaboration, he continues to advance the field of industrial engineering and contribute to data-driven decision-making and optimization in complex systems.

Profiles: Scopus | Google Scholar 

Featured Publications

Sazegaran, H., Kiani-Rashid, A.-R., & Vahdati Khaki, J. (2016). Effects of copper content on the shell characteristics of hollow steel spheres manufactured by advanced powder metallurgy technique. International Journal of Minerals, Metallurgy and Materials, 23(4), 434-441.

Sazegaran, H., Kiani-Rashid, A.-R., & Vahdati Khaki, J. (2016). Effects of the sphere size on microstructural and mechanical properties of ductile iron–steel hollow sphere syntactic foams. International Journal of Minerals, Metallurgy and Materials, 23(6), 676-682.

Sazegaran, H., & Hojati, M. (2021). Investigation on production parameters of steel foam manufactured through powder metallurgical space-holder technique. Metals and Materials International, 27, 3371-3384.

Sazegaran, H., Bahari, H., Naserian-Nik, A. M., & Khorram Shahi, F. (2022). The influence of aluminum content on the porosity, microstructure, and mechanical properties of powder metallurgy steels. Archives of Metallurgy and Materials, 67(1), 105-111.

Firoozbakht, D., Sajjadi, S. A., Beygi, H., & Sazegaran, H. (2018). Low-temperature pressureless sintering of Al₂O₃-SiC-Ni nanocermets in air environment. Ceramics International, 44(15), 18156-18163.