Tajbakhsh Navid Chakherlou | Fatigue and fracture | Best Researcher Award

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Prof Dr Tajbakhsh Navid Chakherlou | Fatigue and fracture | Best Researcher Award

professor , The Faculty of Mechanical Engineering, University of Tabriz , Iran

Dr. Tajbakhsh Navid Chakherlou is a renowned professor in the Department of Mechanical Engineering at the University of Tabriz, Iran. Born on September 18, 1968, in Iran, he has over 25 years of academic and research experience in solid mechanics, particularly in the areas of fatigue and fracture mechanics, residual stress analysis, and bolted joint design. Dr. Chakherlou received his Ph.D. from the University of Bath, UK, in 2002, where he focused on improving the fatigue life of aerospace components. With a robust teaching portfolio, he has guided numerous MSc and Ph.D. students. He is widely recognized for his pioneering work in the mechanical engineering field, particularly on cold expansion and interference fitting methods to enhance the durability of fastener holes in critical applications.

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Strengths for the Best Researcher Award

  1. Extensive Expertise and Specialized Knowledge: Dr. Chakherlou’s expertise in mechanical engineering, particularly in the fields of fatigue and fracture mechanics, residual stress analysis, and the design of bolted joints, has been demonstrated through his high-impact research. His Ph.D. dissertation on cold expansion methods for improving the fatigue life of fastener holes in aerospace aluminium alloy 7075-T6 reflects a deep understanding of critical engineering challenges in materials science and solid mechanics.
  2. Prolific Research Contributions: Dr. Chakherlou has authored several highly cited papers that address fundamental issues in the field of mechanical engineering, particularly those involving fatigue life improvement for bolted and fastener joints. His work, such as “The effect of cold expansion on improving the fatigue life of fastener holes,” published in Engineering Failure Analysis, has become foundational in the field, cited 258 times, demonstrating a lasting impact in both academic and industrial applications.
  3. Impact on Engineering Design and Industry Applications: His research on improving fatigue life in aerospace components through methods such as cold expansion, interference fit, and bolt clamping force optimization has direct industrial applications, particularly in aerospace, automotive, and manufacturing sectors. This work is crucial for enhancing the safety and durability of structural components under cyclic loading.
  4. Teaching Excellence and Mentorship: Dr. Chakherlou has been an active educator for over two decades, teaching a wide range of courses in solid mechanics, fatigue and fracture, plasticity theory, and numerical methods at the University of Tabriz. He has also supervised numerous MSc and Ph.D. theses, many of which have contributed significantly to advancing knowledge in the field. His leadership in the academic community, mentoring a generation of students and researchers, is a clear strength in his career.
  5. Collaboration and International Recognition: His collaborative work with institutions and researchers internationally, as well as the high citation count of his publications, indicates his recognition in the global academic community. His contributions to top journals such as Fatigue & Fracture of Engineering Materials & Structures, Engineering Failure Analysis, and Aerospace Science and Technology have helped solidify his standing as a leader in his field.
  6. Administrative and Leadership Roles: Dr. Chakherlou’s experience in administrative roles, including directing workshops and organizing engineering departments, highlights his ability to contribute to the overall development of his institution. His leadership is an essential component of his career, balancing research, teaching, and institutional growth.

Areas for Improvement

  1. Broader Range of Collaborative Projects: While Dr. Chakherlou has made substantial contributions in the area of mechanical engineering, particularly in fatigue and fracture mechanics, future research could benefit from exploring more interdisciplinary collaborations. For example, integrating his work with cutting-edge technologies such as additive manufacturing, smart materials, or computational optimization could open new avenues for improving material performance and sustainability in engineering design.
  2. Engagement with Emerging Research Areas: Given the rapidly evolving landscape of mechanical engineering, including areas like AI-driven design, nanotechnology, and machine learning applications in material science, Dr. Chakherlou could expand his research interests to engage with these emerging fields. Exploring how these technologies can improve the fatigue life of materials or optimize mechanical systems could enhance his work’s relevance in the next generation of engineering challenges.
  3. Public Dissemination of Research: While Dr. Chakherlou has an impressive body of work and significant impact in peer-reviewed journals, he could work on increasing the visibility of his research to a broader audience outside of academia, including industry leaders and policymakers. Engaging in more outreach activities, public talks, or publishing in more industry-focused journals could further elevate his influence.
  4. Increased Focus on Sustainability and Environmental Considerations: Considering the global emphasis on sustainability, incorporating research on environmentally friendly manufacturing processes or the development of materials with better energy efficiency and recyclability could significantly enhance the societal impact of his work.

Education

Dr. Chakherlou completed his Ph.D. in Mechanical Engineering at the University of Bath, UK, in 2002, specializing in the fatigue life improvement of fastener holes using cold expansion techniques. His MSc was awarded by the Iran University of Science and Technology in 1995, where his thesis focused on the fatigue behavior of notched members. He earned his BSc in Mechanical Engineering from Amir Kabir University of Technology in 1992. His extensive academic training equipped him with a deep understanding of solid mechanics, which he applies in both his research and teaching. The combination of his education and international research experience has positioned him as an influential figure in the engineering community, particularly in the design and optimization of mechanical systems under cyclic loads.

Experience

Dr. Chakherlou has been a Professor of Solid Mechanics at the University of Tabriz since 2012. He has previously served as an Associate Professor (2008–2012) and Assistant Professor (2002–2008). Before that, he was a Lecturer at Sahand University of Technology (1996–1999). He has taught a wide range of courses, including Finite Element Methods, Fatigue and Fracture, Theory of Plasticity, Thermoelasticity, and Metal Forming at both undergraduate and graduate levels. As a Workshop Director at Sahand University of Technology (1996–1999), Dr. Chakherlou managed and developed the materials engineering department’s practical training programs. He also served in administrative roles, including organizing engineering departments in Mianeh (2006–2010), enhancing his leadership and management skills. His comprehensive experience spans teaching, research, and administrative responsibilities.

Awards and Honors

Dr. Chakherlou has received multiple Research Excellence Awards throughout his career, recognizing his contributions to solid mechanics and fatigue life improvement. His highly-cited papers have earned international recognition, and his work on cold expansion methods is considered pioneering in the aerospace and automotive industries. His collaboration with top international researchers has earned him accolades in academic circles, and his leadership in supervising MSc and Ph.D. theses has shaped the next generation of engineers. His publications, many of which have appeared in prestigious journals like Engineering Failure Analysis and Fatigue & Fracture of Engineering Materials & Structures, have contributed significantly to the scientific community. Although specific awards are not listed, his citation count and contributions to critical fields underline his academic achievements.

Research Focus

Dr. Chakherlou’s research focuses on fatigue and fracture mechanics, specifically the improvement of the fatigue life of fastener holes and bolted joints in aerospace and manufacturing components. He is particularly known for his work on cold expansion and interference fit methods to enhance the residual stresses around fastener holes, thus improving the fatigue strength of materials like aerospace aluminum alloys. His research involves both numerical simulations and experimental investigations to explore the influence of various factors such as clamping force, bolt preload, and temperature on the fatigue performance of joints. He also investigates the fracture behavior and stress distribution in bolted and hybrid joints. Dr. Chakherlou’s interdisciplinary approach bridges mechanical engineering with practical industry applications, particularly in the aerospace, automotive, and manufacturing sectors.

Publications

  1. The effect of cold expansion on improving the fatigue life of fastener holes 🔧💥
  2. Experimental and numerical investigation of the effect of clamping force on the fatigue behaviour of bolted plates 🔩📊
  3. An investigation about interference fit effect on improving fatigue life of a holed single plate in joints ⚙️📐
  4. The effect of bolt clamping force on the fracture strength and the stress intensity factor of a plate containing a fastener hole with edge cracks 🔩💥
  5. Experimental and numerical investigations into the effect of an interference fit on the fatigue life of double shear lap joints 🔧🛠️
  6. A novel method of cold expansion which creates near‐uniform compressive tangential residual stress around a fastener hole 🌀🔩
  7. An experimental investigation of the bolt clamping force and friction effect on the fatigue behavior of aluminum alloy 2024-T3 double shear lap joint 🛠️🪛
  8. Effects of aluminum surface treatments on the interfacial fracture toughness of carbon-fiber aluminum laminates 🌐🔬
  9. Investigation of bolt clamping force on the fatigue life of double lap simple bolted and hybrid (bolted/bonded) joints via experimental and numerical analysis ⚙️💡
  10. Experimental and numerical comparison of cold expansion and interference fit methods in improving fatigue life of holed plate in double shear lap joints 🔩🔧
  11. On the fatigue behavior of cold expanded fastener holes subjected to bolt tightening 🔧🛠️
  12. Experimental and numerical study of fatigue crack growth of aluminum alloy 2024-T3 single lap simple bolted and hybrid (adhesive/bolted) joints 📉⚙️
  13. Prediction of fatigue life in aircraft double lap bolted joints using several multiaxial fatigue criteria 🚀🔩
  14. Investigation of the fatigue life and crack growth in torque tightened bolted joints 🔩⚡
  15. Numerical simulation of residual stress relaxation around a cold‐expanded fastener hole under longitudinal cyclic loading using different kinematic hardening models 💻🔬

Conclusion

Dr. Tajbakhsh Navid Chakherlou’s career is a testament to his dedication and excellence in the field of mechanical engineering, particularly in the areas of fatigue and fracture mechanics, fastener design, and material improvement methods. His prolific research, impactful publications, and longstanding teaching career position him as an ideal candidate for the Best Researcher Award. His work has not only advanced the field but has also had significant practical applications in aerospace and manufacturing industries.While there are areas where he could expand his research focus, such as interdisciplinary collaboration, emerging technologies, and sustainability, these are complementary directions for future growth and do not detract from his outstanding achievements to date. Therefore, Dr. Chakherlou is highly deserving of the Best Researcher Award in recognition of his significant contributions to engineering science and education.

Sema Bilge Ocak | Advanced Materials Engineering Award | Best Researcher Award

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Prof Dr Sema Bilge Ocak | Advanced Materials Engineering Award | Best Researcher Award

Prof Dr Sema Bilge Ocak, GAZI UNIVERSITY, Turkey

Prof. Dr. Sema Bilge Ocak is a distinguished researcher and professor at Gazi University, specializing in advanced technologies, materials science, and radiation physics. With extensive experience in academia and research, she has contributed significantly to her field through numerous publications and funded projects. Her work integrates cutting-edge materials and technologies to address complex problems in radiation shielding, semiconductors, and functional composites. Prof. Ocak’s leadership in academic and research roles highlights her commitment to advancing scientific knowledge and technological innovation.

Publication Profile

Orcid

Strengths for the Award

  1. Extensive Academic Background: Sema Bilge Ocak has a robust academic foundation in physics, with a Ph.D., M.Sc., and B.Sc. from Ankara University. Her specialization in advanced technologies is supported by her academic appointments as a professor and associate professor at Gazi University.
  2. Diverse Research Projects: Ocak has participated in numerous research projects spanning multiple disciplines, including material science, radiation detection, composite materials, and environmental applications of electron beam technology. This diversity indicates her ability to lead and contribute to complex, interdisciplinary research efforts.
  3. Prolific Publication Record: With multiple publications in high-impact journals such as ACS Omega, Radiation Physics and Chemistry, and Materials Science in Semiconductor Processing, Ocak has established herself as a prolific researcher. Her work on topics ranging from semiconducting nanostructures to radiation shielding materials demonstrates her versatility and expertise in applied physics and materials science.
  4. International Recognition and Collaboration: Ocak’s involvement in international research communities, as evidenced by her ScholarID, ORCID, Publons, Scopus ID, and other researcher IDs, shows her active engagement in global academic networks. This is a crucial indicator of her recognition and collaboration on a worldwide scale.
  5. Leadership and Mentorship: Ocak’s role as a jury member for doctoral and postgraduate examinations at Gazi University highlights her leadership in academia and her commitment to mentoring the next generation of scientists.

Areas for Improvements

  1. Focused Research Theme: While diversity in research topics can be a strength, a more focused research theme could further elevate Ocak’s profile. Concentrating efforts on a niche area could lead to more profound contributions and recognition in a specific field of study.
  2. Increased Grants and Funding: Although Ocak has participated in several projects supported by higher education institutions, obtaining more competitive international grants could bolster her research capabilities and recognition. Enhanced funding would enable more ambitious projects and collaborations.
  3. Public Engagement and Outreach: Increasing visibility through public lectures, workshops, and popular science publications could improve her impact outside academia. Engaging with a broader audience would not only enhance her reputation but also inspire public interest in science and technology.

Education

Prof. Ocak completed her Doctorate in Physics at Ankara University (1995-2000), focusing on compressed spin states and their applications. She pursued her Postgraduate studies at the same institution, specializing in percolation mechanisms (1992-1995). Her undergraduate degree in Physics was also earned at Ankara University (1988-1992). Her education provided a strong foundation in physics, which she has built upon throughout her career in research and academia.

Experience

Prof. Ocak has served as a professor at Gazi University since 2021, currently heading the Department of Advanced Technologies. She previously held the position of Professor at the Technical Sciences Vocational School, Gazi University (2017-2021) and Associate Professor at various institutions, including Gazi University’s Technical Sciences Vocational School (2014-2017) and Atatürk Vocational School (2011-2013). Her career also includes significant experience as an expert at the Turkish Atomic Energy Authority and research assistant roles at Ankara University.

Research Focus

Prof. Ocak’s research primarily explores advanced materials and their applications in radiation shielding, semiconductors, and functional composites. She investigates the effects of radiation on materials, aiming to enhance their properties for various technological applications. Her work also includes the development of new materials for electronics and radiation detection, contributing to innovations in both fundamental science and practical technology.

Publication Top Notes

Damage analysis of gamma energy on functionally graded material 🛡️

Beta Irradiation Effects on Electrical Characteristics of Graphene-Doped PVA/n-type Si Nanostructures 🔬

Structural and Optical Properties of Interfacial InSe Thin Film 🧪

Natural Radioactivity Levels of the Beach Sands of Cleopatra Beach and Damlatas Beach (Türkiye) and Their Impact on Human Health 🌊

Optimization of an Adulteration Detection Technique in Grape, Carob, Fig, and Mulberry Molasses (Pekmez) Based on Physicochemical Properties 🍇

Semiconducting Double-Layer Lead Monoxide Tin Oxide Nanostructures for Photodetectors 📡

Conclusion

Sema Bilge Ocak is a highly qualified candidate for the Best Researcher Award due to her extensive academic credentials, diverse research portfolio, prolific publication record, and active involvement in the international research community. With targeted efforts to focus her research theme, secure additional funding, and engage in public outreach, Ocak could further solidify her standing as an eminent researcher deserving of this award.