Zeynep Üçerler Çamur | Mineral Processing | Editorial Board Member

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Mrs. Zeynep Üçerler Çamur | Mineral Processing | Editorial Board Member

Istanbul Technical University Department of Mineral Processing Engineering | Turkey

Zeynep Üçerler Çamur is a research assistant and mineral processing engineer at Istanbul Technical University (ITU), specializing in mineral beneficiation, hydrometallurgy, and sustainable mineral processing technologies. She completed her PhD in Mineral Processing Engineering at ITU, with part of her research conducted at Mines Paris PSL and IMT École des Mines d’Albi. Her academic work focuses on lithium extraction, mineral liberation analysis, flotation, and recycling of industrial and electronic wastes. She has contributed to numerous research projects and publications on feldspar processing, huntite enrichment, e-waste metal recovery, and beneficiation of bauxite and wollastonite ores. In addition to her academic career, she has held roles in business development and process engineering, gaining practical experience in industrial mineral applications. Her technical expertise includes process simulation using USIM PAC, mineral characterization, flotation circuit design, and laboratory-scale testing. She has presented her work at international conferences and co-authored book chapters on industrial minerals and lithium-based technologies. Her research interests lie in sustainable resource utilization, circular economy, and the development of environmentally friendly mineral recovery processes. Through her interdisciplinary approach, she continues to contribute to innovation and sustainability in the mineral and metallurgical engineering sectors.

Profile: Google Scholar 

Kangal, M. O., & Üçerler, Z. (2018). Recycling of virgin and post-consumer polypropylene and high-density polyethylene. International Polymer Processing, 33(2), 268–275.

Türk, T., Üçerler, Z., Burat, F., Bulut, G., & Kangal, M. O. (2021). Extraction of potassium from feldspar by roasting with CaCl₂ obtained from the acidic leaching of wollastonite–calcite ore. Minerals, 11(12), 1369.

Üçerler, Z., & Güney, A. (2022). Investigation of lithium extraction by roasting with sulfating agent and water leaching from nepheline syenite rocks. Physicochemical Problems of Mineral Processing, 58(3), 734–742.

Türk, T., Üçerler, Z., Sökmen, İ., & Kangal, M. O. (2024). Enhancing flame retardancy: Enrichment of huntite for paint industry applications. Minerals, 14(2), 180.

Üçerler-Çamur, Z., Keleş, O., & Kangal, M. O. (2025). Mineral liberation analysis (MLA)-based characterization of lithium source: Biotite and associated minerals in nepheline syenites. Minerals, 15(8), 876.

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.

Sharath Kumar | Extractive Metallurgy | Editorial Board Member

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Dr. Sharath Kumar | Extractive Metallurgy | Editorial Board Member

Vijayanagara Sri Krishandevaraya University Ballari, Karnataka India

Dr. P. Sharath Kumar is an accomplished academic and researcher in the field of Mineral Processing, currently serving as an Assistant Professor at Vijayanagara Sri Krishnadevaraya University, Karnataka, with over nine years of teaching and research experience. He holds a Ph.D. in Mineral Processing, an M.Tech in Metallurgical Engineering from NIT Karnataka, Surathkal, and a B.E. in Mechanical Engineering from VTU Belagavi. His research interests include iron ore beneficiation, magnetic separation, reduction roasting, pelletization of iron ore concentrates, and modeling and simulation of beneficiation plants. . He has successfully guided several postgraduate students and led multiple government-funded and industrial consultancy projects in mineral beneficiation and metallurgical applications. He is a life member of the Indian Institute of Mineral Engineers, Mining Engineering Association of India, and the Institution of Engineers (India). Recognized for his professional excellence, Dr. Kumar has received the Prof. C. Mahadevan Award (Young Mineral Engineer) and the Young Engineer Award from the Institution of Engineers, Kolkata. His work continues to promote innovation and sustainability in mineral and metallurgical engineering.

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Featured Publications

Swamy, A. K., Nikkam, S., & Palthur, S. K. (2022). Recovery of hematite from banded hematite quartzite of southern India by magnetic separation and reverse flotation. Minerals, 12(9), 1095.

Kumara Swamy, A., Suresh, N., & Sharath Kumar, P. (2022). Resource management and utilization of lean grade iron ore resources of Karnataka, India. Journal of Mines, Metals and Fuels, 70(5), 171–181.

Kumar, P. S., Ravi, B. P., Sivrikaya, O., & Nanda, R. K. (2019). The study of pelletizing of mixed hematite and magnetite ores. Science of Sintering, 51(1–3), 1–12.

Kumar, P. S., Ravi, B. P., Sreedhar, G. E., & Naganoor, P. C. (2016). Modeling and optimization of vertical pulsating high gradient magnetic separator for iron ore slime processing using response surface methodology. International Journal of Mineral Processing and Extractive Metallurgy, 1(2), 19–27.

Ayyakkannu, A., Kumar, P. S., Naganoor, P. C., & Hatti, B. (2020). Eco-efficiency of metallurgical value-added process facilities for sustainable production. Applied Ecology and Environmental Sciences, 8(6), 505–508.

Fatma Mouez | Smart Materials | Editorial Board Member

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Dr. Fatma Mouez | Smart Materials | Editorial Board Member

Central Metallurgical Research and Development Institute | Egypt

Dr. Fatma Abdel Mouez is a distinguished researcher at the Central Metallurgical Research and Development Institute (CMRDI), specializing in surface protection, corrosion science, and advanced materials. With a Ph.D. in Physical Chemistry from Ain Shams University, she has over two decades of experience in developing innovative coating technologies and green energy materials. Her research spans electrochemical anti-fouling systems for naval applications, green hydrogen production, and fabrication of advanced electrodes for fuel cell and supercapacitor applications. Dr. Mouez has authored 7 Scopus-Document publications with 65 citations and an h-index of 3, reflecting her impactful scientific contributions. Her pioneering patent, “A novel and eco-friendly technique for synthesis of carbon nanotubes from orange peel” highlights her commitment to sustainable nanotechnology. She has also contributed a chapter to the Springer book Supercapacitors: Current Trends and Future Opportunities. Dr. Mouez’s research excellence bridges material innovation with environmental responsibility, driving advancements in corrosion protection and renewable energy technologies. Her work continues to inspire interdisciplinary collaboration and technological progress in metallurgy and nanomaterials.

Profiles: Scopus 

Featured Publications

Abdel Mouez, F. (2025). Development and evaluation of superhydrophobic carbon nanotube coatings on maraging steel: Corrosion protection and anti-fouling characteristics. Journal of Alloys and Metallurgical Systems.

Abdel Mouez, F. (2024). Comparing three strategies for surface treatment of Mg coated by hexamethylene diamine tetra methylene phosphonic acid for corrosion protection. Surface and Interface Analysis.

Abdel Mouez, F. (2020). Microstructure, hardness, wear, and magnetic properties of (tantalum, niobium) carbide-nickel-sintered composites fabricated from blended and coated particles. Materials Performance and Characterization.

Abdel Mouez, F. (2017). Challenges on synthesis of carbon nanotubes from environmentally friendly green oil using pyrolysis technique. Journal of Analytical and Applied Pyrolysis.

Abdel Mouez, F. (2011). Fabrication and characterization of copper/diamond composites for heat sink application using powder metallurgy. Natural Science.

Kechang Shen | Non-Ferrous Metals | Best Researcher Award

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Dr. Kechang Shen | Non-Ferrous Metals | Best Researcher Award

Ludong University | China

Dr. Kechang Shen is a researcher in Materials Science and Engineering with expertise in metallic alloys, corrosion resistance, and electrocatalysis. He earned his PhD in Materials Science and Engineering from Shandong University and currently works at Ludong University. His research focuses on the design and characterization of gold-based and copper-based alloys, exploring their structural, mechanical, and catalytic properties for applications in energy conversion and aerospace systems. He has authored more than 18 peer-reviewed papers in international journals such as Journal of Materials Engineering and Performance, RSC Advances, and Journal of Alloys and Compounds. His works have collectively received over 153 citations with an h-index of 8 and document is 19. His studies include advances in nanoporous gold catalysts, colored gold alloys, and Cu–Cr–Zr rail materials for electromagnetic launch systems. He has led multiple national and provincial research projects and holds several patents related to rocket transport and launch technologies. His research interests include alloy microstructure, electrocatalytic mechanisms, corrosion resistance, and the development of multifunctional structural materials. He continues to contribute to innovative materials solutions for aerospace and energy technologies.

Profiles: Scopus | Orcid

Featured Publications

Li, G., Chen, S., Li, Y., Liu, X., Li, F., Wang, P., Zang, G., Li, J., Ding, X., & Shen, K. (2025). Research on the structure, hardness, and corrosion resistance of colored 18 K gold. Journal of Materials Engineering and Performance.

Shen, K., Gong, Q., Sun, Z., Sun, H., Ma, B., & Wang, W. (2024). Damage characteristics of Cu–Cr–Zr alloy rail of electromagnetic railgun after simulated launch. Transactions of Nonferrous Metals Society of China, 34(8), 2589–2604.

Shen, K., Gong, Q., Zhang, H., Li, K., Sun, Z., Li, G., Hu, X., Liu, L., & Wang, W. (2022). Role of composition and texture on bifunctional catalytic performance of extruded Au–Cu alloys. RSC Advances, 12(35), 22492–22502.

Shen, K., Sun, H., Li, K., Liang, G., Gong, Q., Yan, Z., Kim, K., & Wang, W. (2021). Effect of chemical corrosion and alloying on the catalytic activity of 18 carat gold for the electro-oxidation of HCOOH. Journal of Alloys and Compounds, 863, 158080.

Shen, K., Li, G., Chen, Q., Zhang, L.-C., & Wang, W. (2020). Catalytic activity of extruded and annealed Au–Ag alloys for the electro-oxidation of CH₃OH and HCOOH. Journal of Alloys and Compounds, 815, 152409.

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.

Hatem Ksibi | Mechanical Metallurgy | Best Scholar Award

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Prof. Hatem Ksibi | Mechanical Metallurgy | Best Scholar Award

University of Sfax, IPEIS | Tunisia

Prof. Dr. Eng. Hatem Ksibi is a Full Professor of Chemical Engineering at the University of Sfax and a Senior Researcher at the Laboratory of Materials Applications in Environment, Water and Energy, University of Gafsa. He holds a PhD in Chemical Engineering from the University of Paris–Sorbonne North and an Advanced Diploma in Energy Conversion from the University Pierre and Marie Curie. His academic and research career spans over two decades, focusing on materials science, process engineering, and environmental technologies. His work emphasizes the valorization of industrial by-products such as phosphogypsum, supercritical fluid extraction, powder technology, crystallization processes, and biogas production through anaerobic digestion. Prof. Ksibi integrates advanced numerical modeling, simulation, image analysis, and machine learning techniques in engineering problem-solving and education. He has authored numerous scientific publications, supervised several doctoral theses, and contributed extensively to interdisciplinary research linking theory, experimentation, and sustainable industrial practice. With an h-index of 10, over 305 citations, and more than 39 documents indexed in major scientific databases, he actively reviews for international journals and participates in national and international scientific committees. His research advances sustainable engineering solutions and promotes digital transformation in industrial and environmental systems.

Profiles: Scopus | Google Scholar | Orcid

Featured Publications

Ksibi, H. (2025). Refined covolume approach for heavy alkanes in Abel–Noble EOS at high pressures. International Journal of Thermodynamics, 28(2), 35–44.

Ksibi, H. (2024). Morphology and size comparison of crystallized materials using image-based counting techniques: Conventional vs. supercritical processes. Journal of Chemistry and Technologies, 33(2), 312576.*

Ksibi, H. (2023). Bioactive Chemlali olive derivatives and compounds useful for pharmaceutical purposes: A review. International Journal of Plant Based Pharmaceuticals, 3(2), 215–227.

Ksibi, H. (2024). Valorization of phosphogypsum waste into sustainable materials for environmental applications. Environmental Engineering and Management Journal, 23(4), 451–460.

Ksibi, H. (2022). Application of machine learning and image analysis in materials characterization and process modeling. Journal of Materials and Environmental Science, 13(8), 785–794.

 

Lin Yue-Feng | Surface Engineering | Best Researcher Award

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Mr. Lin Yue-Feng | Surface Engineering | Best Researcher Award

National Chin-Yi University of Technology | Taiwan

Dr. Yue-Feng Lin is an accomplished researcher and academic specializing in intelligent manufacturing, semiconductor material processing, and precision machining. His work integrates ultrasonic-assisted machining, diamond-wire wafer slicing, and AI-based optimization to enhance precision, efficiency, and sustainability in modern manufacturing. He has completed eight government-funded projects, including two ongoing, and collaborated on industry-academia projects focused on semiconductor process optimization, smart manufacturing, and low-carbon production. which have received 16 citations from 13 documents, with an h-index of 3. He also holds four granted patents and has authored two technical books on advanced material processing and ultrasonic vibration-assisted machining. In addition to his research achievements, he serves as a reviewer for Sensors and Materials and CSME Journal. Dr. Lin’s interdisciplinary expertise bridges academic research and industrial application, driving innovation in precision engineering and sustainable manufacturing. His continued dedication to research excellence and collaborative development contributes significantly to advancing smart manufacturing technologies and promoting global competitiveness in next-generation production systems.

Profiles: Scopus Orcid

Featured Publications

Lin, Y.-F., Chen, M.-C., Ven, S.-I., Tzoi, M.-R., & Chuong, T.-M. (2025). Intelligent casting method integrating anomaly detection and semantic segmentation. Machines, 13(1), 317.

Lin, Y.-F., Wang, Y.-C., Lien, H.-H., & Tzoi, M. (2016). Geometric-overlap modeling and sweep uniformity optimization of five diamond conditioning disks. International Journal of Advanced Manufacturing Technology, 87(5–8), 225–3710.

Lin, Y.-F., & Wang, Y.-C. (2021). Optimization of ultrasonic-assisted cutting parameters using AI-based prediction models. Applied Sciences, 11(22), 11840.

Lin, Y.-F., Chen, M.-C., & Lien, H.-H. (2020). Analysis of diamond-wire slicing characteristics in semiconductor wafer processing. Materials, 13(15), 3325.

Lin, Y.-F., & Tzoi, M.-R. (2019). Precision control of ultrasonic vibration-assisted machining for difficult-to-cut materials. International Journal of Advanced Manufacturing Technology, 102(1–4), 145–156.

 

Fatma Mouez | Metallurgical Coatings | Women in Metallurgy Award

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Dr. Fatma Mouez | Metallurgical Coatings | Women in Metallurgy Award

Central Metallurgical Research and Development Institute | Egypt

Dr. Fatma Abdel Mouez is a distinguished researcher at the Central Metallurgical Research and Development Institute (CMRDI), specializing in surface protection, corrosion science, and advanced materials. With a Ph.D. in Physical Chemistry from Ain Shams University, she has over two decades of experience in developing innovative coating technologies and green energy materials. Her research spans electrochemical anti-fouling systems for naval applications, green hydrogen production, and fabrication of advanced electrodes for fuel cell and supercapacitor applications. Dr. Mouez has authored 7 Scopus-Document publications with 65 citations and an h-index of 3, reflecting her impactful scientific contributions. Her pioneering patent, “A novel and eco-friendly technique for synthesis of carbon nanotubes from orange peel” highlights her commitment to sustainable nanotechnology. She has also contributed a chapter to the Springer book Supercapacitors: Current Trends and Future Opportunities. Dr. Mouez’s research excellence bridges material innovation with environmental responsibility, driving advancements in corrosion protection and renewable energy technologies. Her work continues to inspire interdisciplinary collaboration and technological progress in metallurgy and nanomaterials.

Profiles: Scopus | Orcid

Featured Publications

Abdel Mouez, F. (2025). Development and evaluation of superhydrophobic carbon nanotube coatings on maraging steel: Corrosion protection and anti-fouling characteristics. Journal of Alloys and Metallurgical Systems.

Abdel Mouez, F. (2024). Comparing three strategies for surface treatment of Mg coated by hexamethylene diamine tetra methylene phosphonic acid for corrosion protection. Surface and Interface Analysis.

Abdel Mouez, F. (2020). Microstructure, hardness, wear, and magnetic properties of (tantalum, niobium) carbide-nickel-sintered composites fabricated from blended and coated particles. Materials Performance and Characterization.

Abdel Mouez, F. (2017). Challenges on synthesis of carbon nanotubes from environmentally friendly green oil using pyrolysis technique. Journal of Analytical and Applied Pyrolysis.

Abdel Mouez, F. (2011). Fabrication and characterization of copper/diamond composites for heat sink application using powder metallurgy. Natural Science.

Beitallah Eghbali | Physical Metallurgy | Best Researcher Award

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Prof. Dr. Beitallah Eghbali | Physical Metallurgy | Best Researcher Award

Sahand University of Technology | ran

Dr. Beitallah Eghbali is a distinguished materials scientist and academic at Sahand University of Technology (SUT), Tabriz, Iran. He earned his B.Sc. in Materials Science and Engineering from Isfahan University of Technology, his M.Sc. from Tarbiat Modares University with a focus on the hot rolling effects in ultra-high strength steels, and his Ph.D. in Materials Science and Engineering on grain refinement in microalloyed steels through thermomechanical processing. He also completed a visiting research program at Deakin University, Australia. His research interests include thermomechanical processing of steels and alloys, severe plastic deformation, grain refinement mechanisms, multilayer composites, and the relationship between microstructure and mechanical properties in metallic systems. Dr. Eghbali has published extensively in international journals and serves on the reviewer board of the Journal of Alloys and Compounds. Throughout his career, he has received multiple awards for research excellence, including several “Selected Researcher” distinctions and the “Superior Ph.D. Thesis” award. His scientific contributions have advanced the understanding of microstructural evolution and mechanical behavior in advanced metallic materials, combining experimental and analytical approaches to enhance the performance of industrial alloys and promote innovation in materials engineering.

Profile: Google Scholar

Featured Publications

Eghbali, B. (2007). EBSD study on the formation of fine ferrite grains in plain carbon steel during warm deformation. Materials Letters, 61(18), 4006–4010.

Eghbali, B. (2008). Microstructural development in a low carbon Ti-microalloyed steel during deformation within the ferritic region. Materials Science and Engineering A, 480, 84–88.

Eghbali, B. (2008). Microstructural characterization of a warm deformed microalloyed steel. Materials Characterization, 59(4), 473–478.

Eghbali, B. (2008). Severe deformation of a carbon steel within the ferritic region. Materials Science Forum, 584–586, 667–672.

Eghbali, B. (2010). Study on the ferrite grain refinement during intercritical deformation of a microalloyed steel. Materials Science and Engineering A, 527, 3407–3410.