Hussein Fawzi Hussein | Metallurgical Recycling | Research Excellence Award

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Dr. Hussein Fawzi Hussein | Metallurgical Recycling | Research Excellence Award

Scientific Resaerch Commission | Iraq

Dr. Hussein Fawzi Hussein is a materials and metallurgical engineer and researcher affiliated with the Scientific Research Commission, Baghdad, Iraq, where he has served since 2011 as Chief Engineer at the Industrial Applications and Materials Technology Research Center, contributing to applied research and national scientific development. He also holds a leadership role as Director of Metals and Alloys at the Ministry of Higher Education and Scientific Research. Dr. Hussein earned his Ph.D. in Materials Science and Engineering from POLITEHNICA Bucharest National University of Science and Technology, Romania, in 2019, following advanced academic and research training in metallurgy and materials engineering. His research interests focus on aluminum and steel alloys, welding and microstructural analysis, renewable energy systems, solar photovoltaic performance, heat exchangers, nanomaterials, and surface thermal analysis under real climatic conditions. He has published 8 scientific documents indexed in Scopus and Web of Science, receiving 17 citations with an h-index of 2, reflecting growing international visibility. Dr. Hussein serves as a reviewer for the International Journal of Renewable Energy Research, demonstrating academic recognition and service to the scientific community. His scholarly contributions bridge materials science and renewable energy applications, supporting sustainable technologies and industrial innovation, and positioning him as an active contributor to interdisciplinary research and applied engineering advancement.

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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.

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.