Dr. Enis Muratović  | Polymer gears – Computational modelling | Best Researcher Award

Faculty of Mechanical Engineering at University of Sarajevo, Bosnia and Herzegovina 

Enis Muratović is a mechanical engineering researcher and academic with a strong focus on polymer gears and tribology. He has been a Teaching Assistant at the Faculty of Mechanical Engineering, University of Sarajevo, since 2018, where he teaches various courses and conducts research in computational modeling and mechanical design. He is currently pursuing his Ph.D., with his research centered on the tribological processes of polymer gears. Enis has received several awards, including the University of Sarajevo’s Award for Exceptional Research Contributions in 2023.

Profile

GOOGLE SCHOLAR

Educational

• Ph.D. in Mechanical Engineering (in progress)
  Faculty of Mechanical Engineering, University of Sarajevo (2024 – Current)
  Thesis: Contribution to the Research of Tribological Processes of Polymer Gears
  Research Areas: Polymer Gears, Tribology, Experimental Testing, Computational Modeling.
• Master’s Degree in Mechanical Engineering
  Faculty of Mechanical Engineering, University of Sarajevo (2016 – 2018)
  Thesis: Construction of the Single-Bridge Crane Made Out of Hot-Rolled Profiles.
• Bachelor’s Degree in Mechanical Engineering
  Faculty of Mechanical Engineering, University of Sarajevo (2013 – 2016).

Professional Experience

Enis Muratović has been an integral part of the academic team at the Faculty of Mechanical Engineering, University of Sarajevo, since 2018. In his role as a Teaching Assistant, he has taught a variety of mechanical engineering courses, ranging from technical drawings and machine elements to more specialized topics like power transmission systems and computer-aided design. His contributions to both teaching and research have been recognized by his peers, culminating in an Award for Exceptional Results in Science Research by the University of Sarajevo in 2023.

Enis is also an active researcher, focusing on areas like polymer gears and tribology. His extensive experience in computational modeling and experimental testing has led to his involvement in various projects, including the development of prototypes for external fixation devices and additive manufacturing of machine elements.

Research Interests

• Tribology of Polymer Gears
• Additive Manufacturing and 3D Printing
• Computational Modeling and FEM Analysis
• Mechanical Design and Structural Optimization
• External Fixation Devices in Biomedical Engineering.

Author Metrics

• Enis has contributed to several high-impact publications and conference papers. His key publications include research on polymer gears, the mechanical behavior of external fixation devices, and additive manufacturing. Some of his notable works are:

  • “Failure Analysis of Nylon Gears Made by Additive Manufacturing” (2022)
  • “Assessing Wear Coefficient and Predicting Surface Wear of Polymer Gears: A Practical Approach” (2023)
  • “Experimental & FEM Analysis of Orthodontic Mini-Implant Design on Primary Stability” (2021)
  • “Biomechanical Performance Analysis of Monolateral External Fixation Devices” (2022).

  Enis is proficient in various software tools, including AutoCAD, Abaqus, CATIA, SolidWorks, and Python, and has expertise in FEM analysis and CAD/CAE system integration for mechanical design. His research outputs contribute significantly to both the academic community and industry applications in mechanical engineering.

Publications

Conclusion

Dr. Enis Muratović is an outstanding candidate for the Best Researcher Award, with a solid foundation in both academic research and practical engineering applications. His work in polymer gears, tribology, and computational modeling reflects a high level of innovation and technical expertise. He has already received notable recognition and is poised to continue making valuable contributions to the field of mechanical engineering.To further strengthen his candidacy for future awards, Dr. Muratović could focus on enhancing his international collaborations, publishing in more high-impact journals, and exploring opportunities for commercializing his research. Overall, he is a well-rounded researcher with significant potential for continued success in both academic and industrial spheres.