Suleyman Sukuroglu | Corrosion Resistance Alloy | Best Academic Researcher Award

Published on by MTE Awards

Mr. Suleyman Sukuroglu | Corrosion Resistance Alloy | Best Academic Researcher Award

Assistant Professor at Gumushane University | Turkey

Mr. Suleyman Sukuroglu is a materials and surface engineering researcher whose work centers on advanced coating technologies, particularly micro-arc oxidation (MAO) and plasma electrolytic oxidation (PEO), applied to lightweight structural alloys such as magnesium, aluminum, titanium, and NiTi. With 149 citations, 12 Scopus-indexed publications, and an h-index of 7, he has contributed substantially to understanding and improving the mechanical, corrosion, wear, adhesion, tribocorrosion, and biocompatibility properties of ceramic and nanocomposite coatings. His studies involve the incorporation of functional nanoparticles-including TiB₂, ZnO, h-BN, graphene oxide, Ag, MoS₂, and sodium pentaborate-into oxide layers to enhance structural stability and multifunctional performance. He has published high-quality research demonstrating improvements in coating morphology, oxide layer integrity, and interfacial adhesion, contributing to the advancement of durable and corrosion-resistant surfaces for both industrial and biomedical applications. His work on NiTi shape-memory alloys and WE43 magnesium alloys has expanded knowledge on biocompatible coatings, corrosion control, and surface modification strategies for engineering systems. His research output appears in respected international journals such as Materials Today Communications, Journal of Adhesion Science and Technology, Applied Physics A, Arabian Journal for Science and Engineering, and multiple materials science conference proceedings. He has also contributed to national research projects involving tribological optimization, nanoparticle-reinforced oxide layers, and coating performance evaluation under challenging environments. Through sustained scientific output, a clear thematic research focus, and contributions to materials characterization and surface technologies, he has established a recognized academic profile within the fields of metallurgical engineering and surface modification science.

Profiles : Scopus | ORCID

Featured Publications

Belet, A. K., Şüküroğlu, S., & Şüküroğlu, E. E. (2025). Investigation of structural and adhesion properties of ZnO and h-BN doped TiO₂ coatings on Cp–Ti alloy. Journal of Adhesion Science and Technology.

Şüküroğlu, S. (2025). Characterization, corrosion, adhesion and wear properties of Al₂O₃ and Al₂O₃:TiB₂ composite coating on Al 7075 aluminum alloy by one-step micro-arc oxidation method. Materials Today Communications.

Şüküroğlu, S., Şüküroğlu, E. E., Totik, Y., Gülten, G., Efeoğlu, İ., & Avcı, S. (2024). Corrosion and adhesion properties of MAO-coated LA91 magnesium alloy. Materials Science and Technology.

Şüküroğlu, S., Totik, Y., Şüküroğlu, E. E., & Avcı, S. (2024). Investigation of corrosion properties of LA-91 alloy coated with MAO method. Journal of the Chinese Society of Mechanical Engineers, Transactions of the Chinese Institute of Engineers, Series C.

Şüküroğlu, S. (2023). Al 2024 alaşımı üzerine mikro ark oksidasyon yöntemiyle B4C ilaveli kompozit kaplamaların büyütülmesi. Yüzüncü Yıl Üniversitesi Fen Bilimleri Enstitüsü Dergisi.

Abdellah Marzoug | Contact Mechanics | Best Researcher Award

Published on by MTE Awards

Mr. Abdellah Marzoug | Contact Mechanics | Best Researcher Award

National Institute of Applied Sciences of Lyon | France

Mr. Abdellah Marzoug is a researcher specializing in mechanics, tribology, and multiscale modeling, with a focus on rough surface contact behavior and damage mechanisms relevant to high-performance materials and engineering systems. His work integrates theoretical modeling, numerical simulation, and experimental correlation to understand micropitting, fatigue initiation, and crack propagation in mechanical components, particularly in the context of transmission systems and surface-engineered materials. He has contributed to the advancement of analytical and computational frameworks for contact pressure prediction and roughness-induced stress fields, including his peer-reviewed publication in the International Journal of Solids and Structures (2025), which provides closed-form solutions for contact pressure distributions generated by 2D rough profiles. His research portfolio also includes contributions to structural mechanics and stress intensity modeling through conference publications and collaborative studies. He has presented his findings at internationally recognized scientific venues, such as the Leeds-Lyon Symposium on Tribology and the International Conference on Computational Contact Mechanics, reflecting growing visibility in the global research community. His research strengths lie in fatigue modeling, multiscale analysis, rough surface characterization, and constitutive modeling of materials under complex loading conditions, contributing to improved reliability, optimization, and predictive assessment of mechanical systems used in aerospace, automotive, and industrial applications.

Profile : ORCID

Featured Publications

Marzoug, A., Chaise, T., Raoult, I., Ye, W., Duval, A., & Nelias, D. (2025). Closed-form solutions for contact pressure distribution generated by 2D rough profiles. International Journal of Solids and Structures.

Delattre, B., Marzoug, A., & Villars, O. (2024). Facteurs d’intensité de contrainte dans un PSE 3D modélisé par Super-Element. Colloque National en Calcul de Structures (CSMA 2024).

Yanhong Wang | Wear Resistant Coating | Best Researcher Award

Published on by MTE Awards

Ms. Yanhong Wang | Wear Resistant Coating | Best Researcher Award

University of Science and Technology Beijing | China

Yanhong Wang is a metallurgical engineering researcher specializing in wear-resistant coatings for steel substrates, with a focus on advancing long-life materials that support low-carbon industrial transformation. Her work emphasizes the design, preparation, and performance optimization of coatings that enhance abrasion resistance under severe service conditions. Through her Scopus-indexed publication, “A Review of Wear-Resistant Coatings for Steel Substrates: Applications and Challenges” in Metals (2025), she provides a comprehensive assessment of coating technologies including thermal spray processes, laser cladding, chemical and physical vapor deposition, and emerging hybrid approaches. ORCID currently indexes 1 research document and an h-index of 1, reflecting her growing scholarly influence. Her research highlights the interplay between coating microstructure, bonding mechanisms, mechanical performance, and environmental durability, identifying key factors that determine coating reliability in high-wear environments. By analyzing failure modes, synergistic strengthening strategies, and the compatibility of coating materials with steel substrates, she contributes essential insights for designing next-generation protective layers. Her work also evaluates industrial applicability, cost-effectiveness, and the sustainability benefits of durable surface engineering solutions, positioning her research within the broader goals of carbon neutrality and reduced resource consumption. Through systematic knowledge integration, she provides valuable guidance for future research directions and industrial innovation in metallurgical coatings.

Profile : ORCID

Featured Publication

Wang, Y., Feng, C., Lin, T., Zhu, R., Zhang, J., Yang, H., Yi, S., He, J., Tu, M., & Wei, G. (2025). A review of wear-resistant coatings for steel substrates: Applications and challenges. Metals.