Assist. Prof. Dr at Karadeniz Technical University, Turkey.
Dr. Harun Yanar is an Assistant Professor at Karadeniz Technical University, Department of Mechanical Engineering. Specializing in materials science and tribology, he holds a Ph.D. (2020) in Mechanical Engineering. Dr. Yanar is the founder of UTS Scientific Instruments Co., connecting academia with industrial innovation. His research explores severe plastic deformation (SPD) techniques, ultrafine-grained and nanostructured materials, tribology, and superplasticity. He has authored over 20 SCI-indexed journal articles and led several national research projects funded by TUBITAK. With an h-index of 13 in both WoS and Scopus, he significantly contributes to advanced materials engineering. Dr. Yanar also actively mentors graduate students and serves as a reviewer for leading international journals, advancing research and practical solutions in material performance and durability.
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🏆 Suitability for the Best Researcher Award
Dr. Harun Yanar is exceptionally suited for the Best Researcher Award due to his pioneering contributions in materials science and mechanical engineering. His expertise in severe plastic deformation techniques, tribological system design, and microstructural property optimization demonstrates scientific excellence and innovation. His prolific research output, with over 20 publications in top SCI-indexed journals and an h-index of 13, reflects high academic impact. Additionally, his leadership in TUBITAK-funded research projects, mentorship of graduate students, and commitment to bridging research and industry through UTS Scientific Instruments Co. highlight his outstanding versatility. Dr. Yanar’s work on superplasticity, wear behavior, and performance enhancement of engineering materials addresses critical industrial challenges, making him a deserving candidate for this prestigious recognition.
🎓 Education
Dr. Harun Yanar’s educational journey is rooted in mechanical engineering and materials science. He completed his undergraduate and master’s studies with distinction before earning his Ph.D. in Mechanical Engineering in 2020 from Karadeniz Technical University. His doctoral research focused on severe plastic deformation (SPD) techniques and their impact on mechanical properties, setting the stage for his future contributions to advanced material design. Dr. Yanar’s education is marked by a strong foundation in mechanical behavior analysis, metallurgy, and tribology. His rigorous academic training provided the skills necessary for cutting-edge research in microstructural evolution, superplasticity, and high-performance engineering materials. His educational achievements have consistently aligned with international standards, preparing him for academic leadership and technological innovation.
🏢 Work Experience
Dr. Harun Yanar brings extensive academic and industrial experience to his field. As an Assistant Professor at Karadeniz Technical University, he has spearheaded multiple national research projects, mentored graduate students, and designed tribological testing systems. His industrial engagement is evident through his role as founder of UTS Scientific Instruments Co., where he facilitates technology transfer from research to practical applications. Dr. Yanar’s research experience spans severe plastic deformation processes, ultrafine-grained material development, and tribological behavior optimization. His dual role in academia and industry provides him with a comprehensive perspective on material performance challenges. Furthermore, his editorial contributions as a peer reviewer for high-impact journals reinforce his commitment to maintaining scientific rigor and promoting the advancement of materials engineering.
🏅 Awards and Honors
Dr. Harun Yanar’s dedication to research excellence has been recognized through various accolades. While specific awards were not detailed, he has been acknowledged through his leadership roles in TUBITAK-funded projects and significant national research grants. His outstanding publication record, with over 20 SCI-indexed journal papers and a robust citation profile (h-index of 13 in both WoS and Scopus), reflects his recognized contributions to materials science and mechanical engineering. Dr. Yanar’s expertise in tribology, SPD techniques, and superplasticity has earned him respect within the academic and industrial communities. His successful bridging of theoretical research and practical innovation further exemplifies his impact. Future recognitions and nominations, such as the Best Researcher Award, continue to affirm his leadership in engineering research.
🔬 Research Focus
Dr. Harun Yanar’s research focus centers on the development of advanced materials through severe plastic deformation (SPD) techniques, tribological system design, and microstructure-property optimization. He investigates friction, wear, and lubrication behaviors, particularly under extreme operating conditions, and the mechanical enhancement of ultrafine-grained and nanostructured materials. His studies extend to exploring superplasticity at lower temperatures and higher strain rates, which has significant implications for manufacturing and aerospace applications. Dr. Yanar also specializes in the development and testing of high-performance brake lining materials and surface modification processes. His work bridges the fundamental understanding of materials science with industrial applications, offering practical solutions to challenges in durability, performance, and reliability of mechanical systems.
📊 Publication Top Notes:
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Harun Yanar, Abdulkadir Coskun (2025). Influence of multi directional forging-induced grain refinement and subsequent aging on tribological performance of Cu-Ni-Si-Cr Alloys in Electrical Contact Sliding Conditions. Wear, In Press.
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Muhammet Demirtas, Harun Yanar, Muhammet Uzun, Melih Ustalar, Zhenjun Zhang, Renjie Dai, Jiewen Jin, Gencaga Purcek (2025). Effect of Severe Plastic Deformation and Aging States on Microstructure and Mechanical Properties of 2024 Aluminum Alloy. Advanced Engineering Materials, 2402728.
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Hao Wang, ZhenJun Zhang, BaiShan Gong, XiangHai Zhou, Rui Liu, Hamid Reza Abedi, Gencaga Purcek, Harun Yanar, Muhammet Demirtas, ZheFeng Zhang (2024). High-Cycle-Fatigue Anisotropy of an Aluminum Alloy Superthick Plate. Advanced Engineering Materials, 26, 2400007.
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Hao Wang, Z.J. Zhang, J.P. Hou, B.S. Gong, H.Z. Liu, H.R. Abedi, G. Purcek, H. Yanar, M. Demirtas, Z.F. Zhang (2024). Fatigue crack propagation anisotropy of an Al–Zn–Mg–Cu super-thick plate. International Journal of Fatigue, 187, 108468.
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M. Demirtas, K.V. Ivanov, G. Purcek, H. Yanar, Y. Kaynak (2024). Surface Modification of Additively Manufactured Inconel 718 Alloy by Low-Energy High-Current Electron Beam Irradiation. Advanced Engineering Materials, 26, 2400633.
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B. Gong, Z. Zhang, J. Hou, R. Liu, Q. Duan, H. Wang, X. Wang, H. Liu, H. Wang, G. Purcek, M. Demirtas, H. Yanar, Z. Zhang (2024). Effects of aging state on the low-cycle fatigue properties of 2024 aluminum alloy. Journal of Materials Research and Technology, 29, 2448–2457.
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M. Demirtas, K.V. Ivanov, G. Purcek, H. Yanar (2022). Enhancing mechanical and tribological properties of Ni₃Al–15 vol% TiC composite by high current pulsed electron beam irradiation. Journal of Alloys and Compounds, 898, 162860.
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H. Yanar, G. Purcek, M. Demirtaş, H.H. Ayar (2022). Effect of Hexagonal Boron Nitride (h-BN) Addition on Friction Behavior of Low-Steel Composite Brake Pad Material for Railway Applications. Tribology International, 165, 107274.
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G. Purcek, H. Yanar, M. Demirtaş, D.V. Shangina, N.R. Bochvar, S.V. Dobatkin (2020). Microstructural, mechanical and tribological properties of ultrafine-grained Cu–Cr–Zr alloy processed by high pressure torsion. Journal of Alloys and Compounds, 816, 152675.
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H. Yanar, H.H. Ayar, M. Demirtaş, G. Purcek (2020). Effect of resin content on tribological behaviour of brake pad composite material. Industrial Lubrication and Tribology, 72(2), 195–2002.