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)

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Citations 1156

Documents 165

h-index 15

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Featured Publications

Ramin Ebrahimi | Mechanical Metallurgy | Best Researcher Award

Published on by Metallurgy Award

Prof. Ramin Ebrahimi | Mechanical Metallurgy | Best Researcher Award

Shiraz University | Iran

Ramin Ebrahimi is a leading researcher in materials science and engineering, with deep expertise in metal forming, severe plastic deformation (SPD) techniques, and processing of ultrafine-grained (UFG) and nanostructured materials. His research encompasses a broad spectrum of metal forming processes  including die design, metal flow, friction modeling, microstructural evolution during deformation, and thermomechanical processing. Over the past two decades, his group has pioneered novel SPD-based methods such as Dual Equal Channel Extrusion, Simple Shear Extrusion, Cyclic Expansion Extrusion, Vortex Extrusion, Circular Simple Shear Extrusion, Twin Parallel-Channel Angular Extrusion, and Double Twin Parallel-Channel Angular Extrusion  achieving high-quality UFG and nanomaterials from aluminum alloys, copper, magnesium alloys, TWIP steel, and IF steel. His work has opened pathways for advanced applications including biodegradable magnesium-based implants. With a portfolio of over journal papers, supervision of numerous M.Sc. and Ph.D. students, and leadership of a research team, his scholarly impact is significant. He also contributes to the scientific community as founder and Editor-in-Chief of a specialized journal, and serves on multiple editorial boards. The h-index of 29 than documentation is 112 and citation over 3142. Ebrahimi’s research excellence has been recognized through honors such as “hot paper” selection and high citation impact. His ongoing work continues to push the frontier of metal forming science and advanced material processing for sustainable and high-performance applications.

Profiles: Scopus | Google Scholar | Orcid

Featured Publications

Ebrahimi, R. (2010). Different processing routes for deformation via simple shear extrusion (SSE). Journal of Materials Processing Technology.

Ebrahimi, R., & Pardis, N. (2015). An analytical approach for simple shear extrusion process with a linear die profile. Materials & Design, 83, 1–10.

Ebrahimi, R. (2021). Iranian Journal of Materials Forming. Iranian Journal of Materials Forming, 8(1), 2-3. 

Ebrahimi, R., & Davoodi, A. (2011). Effect of thermomechanical parameters on dynamically recrystallized grain size of AZ91 magnesium alloy. Materials Science and Engineering A.

Ebrahimi, R., & Solhjoo, S. (2007). Characteristic points of stress–strain curve at high temperature. Journal of Materials Processing Technology.