Corresponding Researher at Zonguldak Bulent Ecevit Univesity
Tuna Ülger is an accomplished academic and researcher in civil and structural engineering, with a career centered on seismic performance, structural resilience, and advanced material applications. His professional journey reflects a consistent pursuit of improving construction practices through innovation, testing, and computational modeling. He has been active in both teaching and research, contributing to the field with significant publications addressing pressing engineering challenges. His expertise bridges practical experimentation and numerical methods, which has enhanced the understanding of structural safety under dynamic loads. Ülger’s work emphasizes the importance of innovation in engineering solutions for infrastructure safety and sustainability.
Professional profile
Scopus | ORCID
Education
The educational path of Tuna Ülger demonstrates a strong international foundation in engineering. He completed his undergraduate studies in civil engineering at Ege University in Turkey, before advancing to the United States for graduate studies. He earned a master’s degree from Texas A&M University, where he focused on civil and environmental engineering. His academic journey culminated with a doctorate in civil and environmental engineering from Louisiana State University. This progression illustrates not only an international academic experience but also a commitment to multidisciplinary knowledge, equipping him with expertise in advanced engineering concepts applied to both research and practice.
Professional Experience
Tuna Ülger has been serving as an Associate Professor in civil engineering at Zonguldak Bülent Ecevit University since 2018. His professional role extends beyond teaching to include active research, supervision, and engagement in collaborative projects. With a balance of academic and practical expertise, he has contributed to strengthening the academic profile of the department and mentoring future engineers. His work has integrated theoretical advancements with practical applications in infrastructure resilience. By maintaining collaborations with international researchers, Ülger has positioned himself as an influential figure contributing to the global dialogue on sustainable and earthquake-resistant structural design.
Research Interest
The research interests of Tuna Ülger encompass seismic performance of structures, fiber-reinforced polymer (FRP) applications in construction, and retrofitting of existing infrastructure. He has a strong focus on bridge engineering and structural optimization under earthquake effects. His studies extend to innovative composite materials and their mechanical behavior under load, with particular emphasis on experimental validation of numerical models. Ülger’s work highlights not only the need for resilient designs but also the potential of advanced materials in addressing modern construction challenges. His investigations consistently provide insights into enhancing safety, efficiency, and durability in the built environment.
Award And Honor
Tuna Ülger has received recognition for his academic and research contributions through roles such as peer reviewer for international journals, reflecting his credibility in the engineering community. His continuous publication record in high-impact journals is itself a mark of distinction. Engagement in evaluating and reviewing scholarly work is a testament to his expertise and the trust placed in him by the academic field. Such responsibilities not only acknowledge his knowledge but also amplify his influence in shaping engineering research trends. Honors associated with his contributions highlight a career characterized by excellence, academic leadership, and professional responsibility.
Research Skill
Tuna Ülger possesses strong research skills in experimental mechanics, finite element modeling, and structural performance assessment. He has demonstrated expertise in applying computational tools to validate experimental findings, thereby creating comprehensive approaches to problem-solving. His ability to bridge laboratory investigations with numerical simulations enhances the reliability of his studies. His skills extend to optimizing designs under complex loading conditions, particularly in earthquake engineering applications. Moreover, his consistent involvement in interdisciplinary projects shows adaptability in applying advanced techniques across various structural systems. These competencies reinforce his standing as a versatile researcher in civil and structural engineering.
Publications
Tuna Ülger has published extensively in respected journals, contributing valuable insights into structural engineering and materials science. His works include studies on the seismic resilience of masonry bridges, geometric optimization of dam structures, and experimental investigations of composite materials. Publications span international outlets such as Engineering Failure Analysis, Structural Engineering and Mechanics, and the Journal of Composites for Construction. The range of topics he has addressed reflects a dedication to both applied and theoretical aspects of engineering. His publication record not only demonstrates productivity but also his role in advancing knowledge in structural performance and resilience.
Title: Analysis of thin-walled steel beams retrofitted by bonding GFRP stiffeners: Numerical model and investigation of design parameters
Journal: Engineering Structures, 2017
Conclusion
The academic and professional trajectory of Tuna Ülger reflects a career dedicated to advancing structural engineering through innovative research and effective teaching. His focus on seismic resilience, material performance, and practical solutions has positioned him as a leading figure in his field. Through a combination of rigorous publications, active professional service, and international education, Ülger has built a profile that bridges science and application. His contributions continue to influence both scholarly research and engineering practice, ensuring that his expertise remains vital in addressing global infrastructure challenges and promoting safety and sustainability in construction practices.