Xuyang Liu | Alloy Design | Research Excellence Award

Published on by Metallurgy Award

Prof. Xuyang Liu | Alloy Design | Research Excellence Award

Chongqing University | China

Xuyang Liu is an Associate Professor in the School of Aerospace Engineering at Chongqing University, China. She earned his B.Sc, M.Sc, and Ph.D. in Metallurgical Engineering from the Department of Materials Science and Engineering at Chongqing University; his doctoral training included a year of joint research at the University of Leicester, UK (2014–2015).The scopus of h-index is 15 then peered document are 67 and citation is 932. Since 2018 she has served as Associate Professor having previously worked as a Lecture, contributing significantly in both teaching and research. His research centers on computational materials science  powder metallurgy, and the preparation and processing of advanced alloy materials with applications in aerospace. She has led or co-led numerous nationally and regionally funded research projects, covering high-performance titanium alloys, multi-principal-element alloys, graphene- and carbon nanotube–reinforced composites, alloy wettability and interfacial thermodynamics, sintering processes, oxidation behavior, fatigue and deformation analysis, and first-principles predictions of thermodynamic and mechanical properties under extreme conditions. she has supervised many undergraduate and graduate students, guiding them toward competitive awards and publications. In summary, Xuyang Liu is a dedicated materials scientist bridging theory, experiment, and application, with a solid track record in teaching, research, mentorship, and innovation contributing substantially to advanced materials design for aerospace and high-performance engineering.

Profile: Scopus 

Featured Publications

Liu, X. Y., Chen, M., Bai, C. G., Liu, C. L., & Soon, A. (2025). Towards designing titanium alloys with high mechanical performance via grain boundary segregation strategy based on data-driven. Journal of Alloys and Compounds, 1038, 182803.

Song, W. H., Liu, X. Y., Chen, M., Bai, C. G., & Feng, Z. X. (2025). Data-driven prediction of sintering and deformation behavior of ZrO₂ ceramics. Ceramics International, 51, 27379.

Liu, X. Y., Liu, C. L., Chen, M., Gao, Y. Z., Wei, L. X., Peng, X. H., & Zhang, X. F. (2023). Multi-principal element alloys with high-density nanotwinned 9R phase. Materials & Design, 229, 111925.

Gao, Y. Z., Chen, M., Liu, X. Y., Wei, L. X., & Hu, N. (2022). Experimental and first-principles study of the interactions between graphene oxide and carbon nanotube. Surfaces and Interfaces, 30, 101836.

Zhou, H. L., Luan, B. F., Yan, A., Yang, X. L., Liu, C. Q., Liu, X. Y., Xu, C. R., Sun, C., Ruan, H. B., Huang, W. J., & Murty, K. L. (2025). First-principles prediction of thermodynamic and mechanical properties of ZrCr₂ under extreme conditions. Journal of Nuclear Materials, 610.

Fırat Mehmet Günkan | Metallurgical Engineering Design | Best Researcher Award

Published on by Metallurgy Award

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.