Zuofa Liu | Metal Forming | Research Excellence Award

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Dr. Zuofa Liu | Metal Forming | Research Excellence Award

Chongqing University | China

Zuofa Liu is a postdoctoral researcher in Materials Science and Engineering at Chongqing University, holding a Ph.D. in the same discipline. His academic and research experience includes participation in National Natural Science Foundation of China projects, National Key R&D Programs, and multiple enterprise-commissioned research initiatives. His research interests focus on metal plastic forming, precision forging, cold and hot extrusion, gear forming technology, and deformation behavior of high-performance alloys. He has published 10 peer-reviewed journal papers, with an h-index of 5 and over 44 citations. His work has contributed to advancing precision forming technologies for aerospace and heavy-duty engineering applications.

Citation Metrics (Scopus)

45
30
15
0

Citations
44

Documents
10

h-index
5

Citations

Documents

h-index

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Featured Publications

Salah Amroune | Mechanical Metallurgy | Best Researcher Award

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Prof. Salah Amroune | Mechanical Metallurgy | Best Researcher Award

University of M’sila | Algeria

Professor Salah Amroune is a Professor of Mechanical Engineering at the University of M’sila, Algeria, with a PhD in Mechanical Engineering from the University of Guelma , a Master’s degree, and an Engineering degree from the University of M’sila. He has extensive academic and research experience in mechanical engineering, materials science, and advanced manufacturing, with a strong focus on bio-composites, natural fiber reinforced materials, machining optimization, fracture mechanics, and numerical modeling. Professor Amroune has authored and co-authored more than 100 peer-reviewed scientific documents indexed in major databases, accumulating several thousand citations and achieving a high h-index 19 according to international  platforms 1458 of citations. His research integrates experimental investigations, statistical optimization methods (RSM, Taguchi, ANN), and finite element modeling to address industrial and sustainability-oriented challenges. He has contributed significantly to high-impact journals in composites, manufacturing engineering, and structural integrity, and actively collaborates with international research teams. His scientific contributions have been recognized through sustained publication productivity, editorial and reviewing activities, and leadership in multidisciplinary research projects. Overall, Professor Amroune’s work advances eco-friendly materials, precision manufacturing, and predictive engineering methods, reinforcing his position as a leading researcher in mechanical and materials engineering.

Citation Metrics (Scopus)

1500
1200
900
600
300
0

Citations
1458

Documents
100

h-index
19

Citations

Documents

h-index

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Featured Publications

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.

Regasa Yadeta Sembeta | Civil Engineering | Research Excellence Award

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Mr. Regasa Yadeta Sembeta | Civil Engineering | Research Excellence Award

Mattu University | Ethiopia

Regasa Yadeta Sembeta is a civil engineer with a Master of Science in Structural Engineering from Jimma Institute of Technology and a B.Sc. in Civil Engineering from Mattu University. Since 2009 he has served as a teacher, researcher, reviewer and community-service academic, progressing to an editorial-board position at Mattu University through sustained academic contributions. His research spans structural and sustainable construction engineering, including finite-element analysis of encased composite columns, performance evaluation under monotonic and cyclic loads, and sustainability-driven materials design such as geopolymer concrete using industrial by-products e.g. copper slag, recycled aggregate, GGBFS and natural fibers e.g. bamboo fiber. Through numerous peer-reviewed publications he has advanced understanding in load-capacity modeling of composite columns, mechanical and thermal performance of sustainable/conventional concrete, and optimization of fiber-reinforced composite materials. His work reflects a strong commitment to combining structural performance with environmental sustainability, computational modelling, and innovative materials research. With 10 Documents publications, 29 citations, and an h-index of 3, his academic impact shows both breadth and influence in the civil/construction engineering community. He remains dedicated to mentoring students, expanding sustainable construction research, and contributing to community-oriented engineering education.

Profiles: Scopus | Google Scholar | Orcid

Featured Publications

Yadeta Sembeta, R., & Zerfu, K. (2023). Finite element‐based performance analysis of encased composite columns under monotonic axial compression load. Advances in Civil Engineering, 2023(1), 5974705.

Yadeta Sembeta, R., Zerfu, K., Mersha, M., & Agon, E. C. (2024). The effects of different steel sections on the performance of encased composite columns under cyclic lateral loads. Results in Engineering, 24, 103510.

Yadeta Sembeta, R., Rath, B., Agon, E. C., Dereje, B., Garoma, S., Debela, A., & Kebede, K. (2023). Modification of load carrying capacity model for composite columns. Journal of Building Pathology and Rehabilitation, 8(1), 11.

Yadeta Sembeta, R., Arunvivek, G. K., Anandaraj, S., Kumar, P., & Pratap, B. (2025). Compressive strength modelling of cenosphere and copper slag–based geopolymer concrete using deep learning model. Scientific Reports, 15(1), 27849.

Yadeta Sembeta, R., Paswan, R. K., Kumar, P., & Kumar, V. (2025). Mechanical properties of alkali-activated slag binder–based concrete at elevated temperatures. Discover Sustainability, 6(1), 744.

Muhammad Tayyab Bhutta | Powder Metallurgy | Editorial Board Member

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Mr. Muhammad Tayyab Bhutta | Powder Metallurgy | Editorial Board Member

National University of Science & Technology,Islamabad | Pakistan

Muhammad Tayyab Bhutta is a mechanical engineer and researcher associated with the National University of Sciences and Technology (NUST), Islamabad, Pakistan, specializing in materials engineering, mechanical design, and manufacturing processes. His postgraduate research focused on the development and characterization of alumina-hydroxyapatite composites for biomedical applications using powder metallurgy, involving material selection, sintering, and microstructural characterization through XRD, SEM, and EDX analysis. He has worked on multiple research projects emphasizing bioceramic and metallic composites, mechanical testing, and process parameter optimization. Professionally, he has gained valuable experience in mechanical maintenance, design, and manufacturing engineering, contributing to projects in mechanical system design, plant maintenance, and industrial process improvement. His expertise includes CAD modeling, FEA simulation, process optimization, and reliability-based maintenance strategies. With several publications and technical contributions, his research impact is reflected through an h-index of 1 and  He holds certifications in Primavera Project Delay Analysis, and Reliability Centered Maintenance, supporting his multidisciplinary approach. Recognized for academic excellence and leadership in engineering, his goal is to advance innovation in sustainable mechanical design, advanced materials, and biomedical engineering applications that bridge research with real-world industrial challenges.

Profile: Scopus 

Featured Publications

Bhutta, M. T., & Ali, S. (2023). Development and characterization of Alumina–Hydroxyapatite composites for biomedical implant applications using powder metallurgy. Journal of Materials Processing and Technology, 315, 118–127.

Bhutta, M. T., Mubashar, A., & Ahmed, F. (2022). Effect of sintering temperature on the mechanical and microstructural properties of Alumina–Hydroxyapatite bioceramics. Materials Science and Engineering: A, 850, 143–153.

Bhutta, M. T., & Khan, R. A. (2023). Optimization of process parameters in powder metallurgy for composite fabrication using Design Expert software. International Journal of Advanced Manufacturing Technology, 126(7), 2145–2156.

Bhutta, M. T., & Yousaf, M. (2024). Evaluation of mechanical and tribological behavior of Al₂O₃–HAP composites under variable dwell times. Journal of Mechanical and Industrial Engineering Research, 22(4), 310–320.

Bhutta, M. T., & Rehman, U. (2024). Microstructural evolution and density analysis of Alumina-based composites for biomedical applications. International Journal of Materials and Metallurgical Engineering, 39(2), 201–210.