Rawaid Ali | Surface Engineering | Research Excellence Award

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Dr. Rawaid Ali | Surface Engineering | Research Excellence Award

Yunnan Normal University | China

Rawaid Ali is a Postdoctoral Researcher at Yunnan Normal University specializing in the synthesis, characterization, and device integration of low-dimensional semiconductors for photodetectors and optoelectronics, with emphasis on Sb–Bi–S–Se materials using CVD and DFT. He holds a PhD in Materials Science from Kunming University of Science and Technology, following MPhil/MSc training in Physics in Pakistan. He previously served as a Lecturer in Physics and now mentors students, delivers seminars, and leads research on structure–property relationships, Li–S battery interfaces, and photocatalytic charge separation.

Citation Metrics (Scopus)

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Citations
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Mahmut Can Senel | Powder Metallurgy | Research Excellence Award

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Assoc. Prof. Dr. Mahmut Can Senel | Powder Metallurgy | Research Excellence Award

Ondokuz Mayıs University | Turkey

Assoc. Prof. Dr. Mahmut Can Şenel is a dedicated mechanical engineer and researcher at Ondokuz Mayıs University’s Department of Mechanical Engineering. With a PhD in Mechanical Engineering and a Master’s degree in the same field  he has steadily advanced in academia, serving as Research Assistant , Assistant Professor , and currently Associate Professor . To date he has published over 22 peer-reviewed journal articles and conference papers, and his work has attracted roughly 455 citations resulting in an estimated h-index of 11 reflecting a solid and growing impact. His research centers on metal-matrix composites, powder metallurgy, graphene and ceramic-reinforced aluminum hybrid composites, tribology, microstructure analysis, induction hot pressing, and aluminum-based composite materials — topics addressed in many funded projects and international publications. Over the years he has managed multiple external research grants, developing composite materials with enhanced mechanical and tribological performance, often for advanced engineering and industrial applications. His strong publication record, diverse research interests, and active project leadership underscore his commitment to advancing materials science. In conclusion, Dr. Şenel combines deep technical expertise, rigorous scholarship, and practical innovation — making him a prominent researcher in composite materials and tribology, with a continuous trajectory of academic growth and impact.

Profiles: Scopus | Google Scholar | Orcid

Featured Publications

Şenel, M. C., & Gürbüz, M. (2024). Sliding wear and friction properties of Al-graphene composites under oil lubrication. Journal of Materials Engineering and Performance.

Işık, E., Taşkın, A., & Şenel, M. C. (2024). Investigation of mechanical and tribological properties of Al7075-Al₂O₃-GNPs hybrid composites produced by powder metallurgy and induction hot pressing. Journal of Materials Engineering and Performance.

Taşkın, A., Işık, E., & Şenel, M. C. (2025). Al7075-B₄C kompozitlerin tribolojik özelliklerinin ve mikroyapısının incelenmesi. Osmaniye Korkut Ata Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 8(3), 1314–1332.

Şenel, M. C., Kanca, Y., & Gürbüz, M. (2022). Reciprocating sliding wear properties of sintered Al–B₄C composites. International Journal of Minerals, Metallurgy and Materials, 29(6), 1261–1269.

Şenel, M. C., Gürbüz, M., & Koç, E. (2018). Mechanical and tribological behaviours of aluminium matrix composites reinforced by graphene nanoplatelets. Materials Science and Technology.

Ilker Murat Koç | Metallurgical Engineering Design | Best Researcher Award

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Prof. Dr. Ilker Murat Koç | Metallurgical Engineering Design | Best Researcher Award

Istanbul Technical University, Faculty of Mechanical Engineering | Turkey

Prof. Dr. İlker Murat Koç is a senior mechanical engineering academic with extensive experience in tribology, system dynamics, control, mechatronics and high-pressure flow systems has contributed significantly to research, education and technological development. Holding a PhD in Mechanical Engineering with a focus on vibration absorption using energy sinks, preceded by graduate and undergraduate degrees in machine theory and mechanical engineering, this researcher has built a strong international academic profile through appointments at multiple globally recognized universities. Their scholarly output includes more than twenty-four peer-reviewed journal articles, numerous conference papers and eight patents, supported by an h-index of 8, 306 citations, and 29 documentations cross mechanical systems, sensing technologies and propulsion. Contributions span vibration control, tactile sensing, piezoelectric energy harvesting, hydraulic and pneumatic proportional systems, multi-axis force/moment sensing, autonomous mechanisms and cold gas propulsion concepts for soft-landing missions. This researcher has led major industry-driven projects in defense, automotive and manufacturing sectors and has established advanced laboratories for propulsion, sensing and additive manufacturing. Their editorial roles, technical committee memberships and leadership in national innovation programs reflect long-standing impact. Continuing to bridge fundamental mechanics with applied engineering, their work drives forward advancements in tribology, mechatronics and aerospace-related technologies.

Profiles: Scopus | Google Scholar | Orcid

Featured Publications

Koç, İ. M. (2023). Nonlinear energy sink–based vibration absorption for lightweight mechanical structures. Journal of Vibration and Control, 29(4), 512–528.

Koç, İ. M., & Yılmaz, A. (2022). Design and characterization of a high-pressure motorized pneumatic needle valve for precision flow control. Mechanical Systems and Signal Processing, 168, 108743.

Koç, İ. M., Demir, H., & Arslan, M. (2021). Development of a multi-axis force and moment sensing system for robotic applications. IEEE/ASME Transactions on Mechatronics, 26(5), 2450–2462.

Koç, İ. M. (2020). Cold gas propulsion system modeling and experimental validation for soft-landing demonstrators. Acta Astronautica, 176, 334–345.

Koç, İ. M., & Çelik, O. (2019). Tribological performance evaluation of coated surfaces under high-speed sliding conditions. Tribology International, 137, 337–348.

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.

Morteza Taheri | Materials Characterization | Best Researcher Award

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Assist. Prof. Dr. Morteza Taheri | Materials Characterization | Best Researcher Award

Iranian Research Organization for Science and Technology (IROST)  Tehran | Iran

Dr. Morteza Taheri is an Assistant Professor in the Department of Advanced Materials and New Energies at the Iranian Research Organization for Science and Technology (IROST), focusing on advanced manufacturing, laser processing, and protective coatings. He holds an M.Sc. in Materials Science with a specialization in material selection and a Ph.D. in Materials Science and Engineering, where his doctoral research explored the influence of Nd:YAG pulsed-laser welding parameters and heat treatment on GTD superalloy joints. He also completed a postdoctoral program centered on Ni-Cr/cBN laser coatings and the enhancement of wear behavior through ultrasonic assistance. Dr. Taheri has collaborated extensively with knowledge-based companies, contributing to major industrial projects involving the development of high-entropy alloys, anti-wear automotive coatings, laser cladding of gas turbine blades, advanced heat-treatment strategies for superalloys, and additive manufacturing of titanium alloys. He has authored more than scientific publications, achieving an h-index of 20, over 864 citations, and more than 56 research documents based on Google Scholar metrics. His research interests include laser welding, laser cladding, additive manufacturing, high-entropy alloy coatings, tribology, microstructural evolution, and the wear and corrosion behavior of advanced materials. His contributions have earned recognition such as Publons Top Reviewer honors, highlighting his impact within materials science.

Profiles: Scopus | Google Scholar | Orcid

Featured Publications

Taheri, M., & Razavi, M. (2022). Effect of TiC on the microstructure of GTD-111 superalloy processed by laser powder bed fusion. Materials Letters, 133091.

Taheri, M., Vashian, S., Zamani, N., Torkamany, P., Heidarpour, I., & Torkamany, M. J. (2022). Measurement of local creep life of laser cladding coatings by small punch creep test. Engineering Failure Analysis, 106524.

Taheri, M., Davar, A., Beni, M. H., Jam, J. E., Zamani, M. R., & Alizadeh, A. (2022). The impact toughness of Nd:YAG laser-welded GTD-111 superalloy joints. Journal of Materials Engineering and Performance, 1–11.

He, Y., Taheri, M., Zou, Y., Lashkari, A., Shirvani, K., Beirami, K., & Moghaddam, A. P. (2024). Investigating the microstructure and tribological properties of ZrB₂ and ZrB₂/TiB₂ coatings applied by ultrasonic field-assisted laser cladding. Materials Letters, 365, 136449.

Wu, Z., Taheri, M., Shirvani, K., Raji, E., Torkamany, M. J., & Jelodar, R. T. (2024). Development of NiCrFeCoBX eutectic high-entropy alloy coating by laser cladding: Investigation of microstructural, solidification, corrosion, and wear properties. Materials Chemistry and Physics, 129428.

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.