Karabuk University | Turkey
Author Profile
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Summary
Mustafa Buğday is a dedicated academic specializing in mechanical and mechatronics engineering, with advanced degrees from necmettin erbakan university. his professional career began at karabük university in 2020, where he currently serves as a dr. öğretim üyesi. his research focuses on finite element analysis and pneumatic systems, with a growing interest in power electronics. he has contributed to several international publications and integrates practical engineering tools such as ansys, solidworks, and solidcam in both teaching and research. in addition to his academic work, he actively participates in social and extracurricular activities, reflecting his well-rounded professional character.
Early academic pursuits
Mustafa Buğday embarked on his academic journey in mechanical engineering, earning his bachelor's degree from kto karatay university between 2011 and 2016 with a gpa of 2.91/4. simultaneously, he pursued a second bachelor's degree in business administration from anadolu university. his passion for applied engineering and academic excellence led him to necmettin erbakan university, where he completed his master's (2016–2018) and doctoral studies (2018–2024) in mechanical engineering. during this period, he developed strong foundations in computational mechanics and pneumatic systems, nanotechnology alongside publishing several works in international platforms. his academic training also included the study of cae tools like ansys workbench, which laid the groundwork for his later research focus.
Professional endeavors
In 2020, Mustafa Buğday joined Karabük university’s eskipazar vocational school, beginning as a lecturer in the department of motor vehicles and transportation technologies. with consistent performance and scholarly output, he advanced to the position of dr. öğretim üyesi in 2025. at the faculty of mechatronics engineering, he has been actively teaching courses related to finite element methods, pneumatic systems, and foundational engineering design, nanotechnology contributing to the development of interdisciplinary curricula that touch upon modern topics such as power electronics and automation.
Contributions and research focus
Dr. Buğday’s research centers on the applications of the finite element method (fem) in mechanical systems and the integration of pneumatic control systems in transportation technologies. by incorporating simulation tools like solidworks, autocad, and solidcam, he explores real-world engineering challenges in vehicle mechanics and mechanical behavior prediction. he has also shown a growing interest in power electronics within mechatronics, nanotechnology, aligning his academic pursuits with current industrial trends such as electric mobility and smart actuator systems.
Impact and influence
Beyond his teaching and research responsibilities, Mustafa Buğday plays an active role in student development through extracurricular activities. he leads a scout troop and regularly participates in university-organized events like volleyball and nature walks, emphasizing a balance between technical education and personal growth. his involvement reflects a commitment to nurturing both the academic and nanotechnology social dimensions of university life, fostering a collaborative and dynamic learning environment. his interdisciplinary approach—combining mechanical engineering with elements of power electronics and pneumatics—has also influenced new course content and student research projects in his faculty.
Academic cites
Dr. Buğday has made multiple international publications during his graduate and doctoral studies, contributing to the growing body of literature in mechanical engineering applications. his work has been cited in studies focusing on pneumatic control, finite element simulations, and vehicular system optimizations. while his citation count is still emerging, his rigorous academic output indicates a nanotechnology strong potential for future scholarly recognition, especially in mechatronics and power electronics-related systems design.
Legacy and future contributions
With his comprehensive background in machine design, pneumatics, and applied simulations, Mustafa Buğday is poised to continue advancing in both academic and industrial contexts. his future contributions are likely to involve collaborative projects in electric vehicle systems, mechatronics education, and research involving sustainable transportation technologies. as a committed educator and researcher, he aims to leave a legacy of innovation-driven teaching, nanotechnology student mentorship, and impactful research that bridges academia and engineering practice.
Publications
Title: Effect of the honeycomb structure on the thermo mechanical buckling of sandwich nanoplates exposed to magnetic and thermal fields
Authors: Mustafa Buğday, Ali Kafalı, İsmail Esen
Journal: Mechanics of Advanced Materials and Structures
Publication Date: July 21, 2025
Title: Investigation of 3D Wave Propagation in Foam‐Core Functionally Graded Material Magneto‐Piezoelectric Smart Nanoplates
Authors: Mustafa Buğday, İsmail Esen
Journal: Advanced Engineering Materials
Publication Date: July 15, 2025
Title: The effect of the hexachiral auxetic core on the thermomechanical vibration buckling analysis of smart sandwich nanoplates
Authors: Mustafa Buğday, İsmail Esen
Journal: ZAMM – Journal of Applied Mathematics and Mechanics
Publication Date: June 2025
Title: Investigation of Thermomechanical Buckling Characteristics of Auxetic Core Layered Smart Sandwich Plates
Authors: Mustafa Buğday
Journal: International Journal of Pure and Applied Sciences
Publication Date: June 30, 2025
Title: Three-dimensional wave propagation in curved sandwich nanoplates with FGM foam core under thermal and magnetic fields
Authors: Mustafa Buğday, İsmail Esen
Journal: Mechanics Based Design of Structures and Machines
Publication Date: June 30, 2025
Conclusion
Mustafa Buğday represents a new generation of interdisciplinary engineers, blending mechanical principles with emerging technologies like power electronics. his academic achievements, practical expertise, and commitment to student engagement position him as a valuable contributor to both education and research. with a clear trajectory in simulation-based design and transportation technologies, his future work is expected to influence advancements in sustainable engineering and mechatronic systems.