Prof. Dr. Rooholla Talebitooti | Mechanical Engineering | Best Researcher Award
Prof. Dr. Rooholla Talebitooti | Mechanical Engineering – Professor at Iran University of Science and Technology, Iran
Professor Roohollah Talebitooti is a distinguished academic and researcher in the field of Mechanical Engineering with a specialization in acoustic-structural interactions, noise transmission, advanced composites, and vibration control of complex systems. Currently serving as a full professor at the Iran University of Science and Technology in Tehran, he has made a significant impact in both theoretical and applied research across various sub-disciplines including porous materials, vehicle dynamics, and smart structure design. With over a decade of academic leadership, he has established himself as a pioneering figure in acoustics and mechanical vibration studies, collaborating across international platforms to advance engineering science.
Profile Verified
ORCID / Scopus / Google Scholar
Education
Professor Talebitooti earned his Ph.D. in Mechanical Engineering in 2009 from the Iran University of Science and Technology, a premier institution recognized for its rigorous technical education and innovation-led research. His academic foundation combines strong analytical modeling capabilities with experimental validation approaches, which he refined throughout his doctoral and post-doctoral pursuits. His continuous educational growth is reflected not only in formal degrees but also in his up-to-date contributions to the evolving fields of acoustic materials and structural dynamics.
Experience
Professor Talebitooti has built an illustrious academic career through his tenure at the Iran University of Science and Technology, where he has held key teaching and research positions. As a faculty member, he has mentored graduate and doctoral students in complex mechanical systems and noise control design, while also leading research projects that intersect structural engineering and material science. His experience includes extensive collaboration with scholars across disciplines, grant writing, and publishing in high-impact international journals. His ability to bridge computational models with real-world applications has earned him respect in both academic and industrial circles.
Research Interest
Professor Talebitooti’s research interests are centered around acoustic wave propagation, vibration control in aerospace and automotive systems, laminated and porous composite structures, and nonlinear dynamics in engineering design. He has contributed to advancements in auxetic core materials, flexoelectric shell behavior, and the integration of control strategies to enhance sound insulation in advanced structures. His focus on noise mitigation through structural modification is both timely and technologically critical, given current global challenges in transportation and aerospace industries.
Awards and Recognition
Throughout his career, Professor Talebitooti has earned numerous accolades for his contributions to mechanical engineering, particularly in structural acoustics and vibration mechanics. His inclusion in editorial roles and peer recognition through citations is indicative of the widespread influence of his work. He has been commended at national and institutional levels for both academic excellence and mentorship. His consistent output and relevance to emerging challenges place him in a strong position for the Best Researcher Award.
Publications
Non-alignment effects on the frequency behaviors of sandwich stepped cylindrical shells with auxetic 3D-ARCS core, Thin-Walled Structures, 2025 – cited by 22 articles.
Acoustic characteristics improve of doubly curved aerospace systems considering an optimum control strategy, Aerospace Science and Technology, 2025 – cited by 16 articles.
Effect of Three-Dimensional auxetic honeycomb core on behavior of sound transmission loss in shallow sandwich cylindrical shell, Composite Structures, 2025 – cited by 18 articles.
On size-dependent wave propagation of flexoelectric nanoshells interacted with internal moving fluid flow, Waves in Random and Complex Media, 2024 – cited by 25 articles.
Enhancement of sound transmission through an aircraft structure modeled as a doubly curved shell under uncertainty considering robust H∞ controller, Journal of Vibration and Control, 2024 – cited by 10 articles.
Hygrothermal vibro-buckling of FG ceramic-steel porous consolidated conical-conical shells, Thin-Walled Structures, 2024 – cited by 14 articles.
A comparative study on vibration suppression and energy harvesting via mono-, bi-, and tri-stable piezoelectric nonlinear energy sinks, Nonlinear Dynamics, 2024 – cited by 21 articles.
Conclusion
In summary, Professor Roohollah Talebitooti embodies the excellence, innovation, and academic rigor that the Best Researcher Award seeks to recognize. His profound influence on the development of acoustics and vibration control technologies, coupled with his dedication to research dissemination and student mentorship, make him a strong and deserving candidate. Through his dynamic and forward-looking approach, Professor Talebitooti has not only contributed to foundational science but also advanced practical solutions for engineering challenges that impact aerospace, automotive, and civil systems globally. His scholarly impact and sustained research output underscore his eligibility for this prestigious recognition.
Muhammad Noman Shahid is completing his MS in Mechanical Engineering at Capital University of Science and Technology (CUST), Islamabad, with an expected graduation date of July 2025 and a perfect CGPA of 4.00/4.00. He also holds a BS in Mechanical Engineering from the same institution, achieved from 2019 to 2023, where he worked on the “Design and Development of Continuous Passive Motion (CPM) Machine for Post Knee Surgery Rehabilitation” as his final year design project.
Muhammad’s professional experience includes an internship at SABRO Air Conditioning Pakistan in Islamabad, where he gained over 200 hours of hands-on experience in various HVAC manufacturing processes. His contributions included optimizing production time, ensuring product integrity, and enhancing overall HVAC system efficiency. Muhammad has also demonstrated leadership in numerous extracurricular roles, such as Focal Person at Pakistan Nuclear Society and President Media at Al-Muhandis Society, CUST.
Muhammad’s research interests lie in mechanical engineering, focusing on fluid dynamics, computational modeling, topological optimization, and biomechanics. He is particularly passionate about developing innovative solutions in tissue engineering and energy storage systems.
Muhammad has received several accolades for his academic excellence and innovative projects. In 2024, he achieved the Chancellor’s Honor Roll and secured the 3rd position in Mechanical Engineering (Entrepreneurship) at the 2nd Federal Engineering Capstone Expo. He also received IGNITE funding under the National Technology Fund’s Grossroot ICT Research Initiative for his final year design project.
Muhammad has published significant research work, including: