Dr. Abderraouf Gherissi | Technologies | Excellence in Innovation Award

Published on by Computer Scientists Awards

Dr. Abderraouf Gherissi | Technologies | Excellence in Innovation Award

Dr. Abderraouf Gherissi | Associate Professor | University of Tabuk | Saudi Arabia

Academic Background

Dr. Abderraouf Gherissi holds advanced qualifications in mechanical engineering, progressing through successive academic stages at leading institutions in Tunis. His doctoral research centered on the multiscale mechanical behavior of woven composites, laying the foundation for his specialization in engineering materials and advanced manufacturing. His scholarly influence is reflected in Scopus with more than one hundred citations across over one hundred documents and an h-index of six. On Google Scholar, his citations exceed one hundred with an h-index of six and an i10-index of three, showcasing consistent academic engagement and impact across his publication record.

Research Focus

His research activities revolve around composite materials, mechanical behavior modeling, renewable energy applications, and the engineering of wave and wind energy systems. He also explores advanced manufacturing and material performance through experimental and numerical approaches.

Work Experience

Over his career, he has served in academic and industrial capacities across multiple countries. He has taught a wide range of core and specialized mechanical engineering courses at both undergraduate and postgraduate levels, supervised numerous graduation projects, and contributed to program development and accreditation. His professional trajectory includes roles as associate professor, assistant professor, senior instructor, lecturer, and department head, along with industry leadership experience in maintenance and production. His involvement spans teaching, curriculum design, program assessment, supervision, and applied engineering projects in educational institutions and technical organizations.

Key Contributions

He has contributed to the progression of mechanical engineering education through curriculum innovation, accreditation leadership, mentorship, and collaboration on applied research initiatives. His funded research projects address renewable energy, composite structures, and mechanical system design. His work extends to computational simulation, structural analysis, and the development of energy-conversion technologies.

Awards and Recognition

He has received acknowledgments for excellence in project supervision, online teaching quality, and contributions to accreditation success at institutional and departmental levels.

Professional Roles and Memberships

He has been actively associated with research laboratories and academic committees in Saudi Arabia and Tunisia. His involvement includes roles in engineering accreditation processes with national and international bodies. He serves as a reviewer for high-index journals and participates in research groups focusing on materials science, product engineering, and energy systems.

Publication Profile:

Scopus

ORCID

Google Scholar

Featured Publications

Gherissi, A., ELnasri, I., Lakhouit, A., & Ali, M. (2025). Design and optimization of a wave-adaptive mechanical converter for renewable energy harvesting. Processes.

Ali, M., Gherissi, A., & Altaharwah, Y. (2023). Experimental and simulation study on a rooftop vertical-axis wind turbine. Open Engineering.

Malek Ali, M., Gherissi, A., & Al-Assaf, A. (2022). A review on the effects of ceramic sand particles on casting defects. Journal of Ceramic Processing Research.

Gherissi, A., Fadhil, M., Asiri, A., & Alhwiti, M. (2021). Wind turbine blades based on palm cellulose fiber composites. Journal of Silicate Based and Composite Materials.

Ali, M., & Gherissi, A. (2017). Synthesis and characterization of composite material with chitosan variations. International Journal of Mechanical and Mechatronics Engineering.

Impact Statement / Vision

His work advances the integration of composite materials and renewable energy technologies through research-driven engineering solutions. He seeks to bridge applied mechanics, sustainability, and innovation in manufacturing to support global energy and environmental goals. His vision aligns with developing efficient mechanical systems that contribute to future-ready engineering practices.

Uta Rösel | Technology | Best Researcher Award

Published on by Computer Scientists Awards

Dr. Uta Rösel | Technology | Best Researcher Award

Dr. Uta Rösel , Academic Councillor and Chief Engineer , FAU LKT , Germany.

Dr.-Ing. Uta Rösel is a German academic and mechanical engineer serving as an Academic Councilor at the Chair of Plastics Engineering at Friedrich-Alexander University Erlangen-Nürnberg (FAU). With a passion for research in polymer-based magnetics and thermal-mechanical material behavior, she has demonstrated excellence in both scientific contributions and academic leadership. Her journey from student assistant to senior engineer showcases her dedication to engineering education, sustainable materials, and innovative design. As a scholarship holder and prolific researcher with over 20 publications, Dr. Rösel contributes extensively to the development of recycling strategies and functional polymer composites for industrial applications.

Publication Profile

Scopus

ORCID

Google Scholar

🎓 Education Background

Dr. Uta Rösel pursued her academic journey entirely at Friedrich-Alexander University Erlangen-Nürnberg. She completed her Bachelor’s degree in Mechanical Engineering in 2016, followed by a Master’s degree in the same field with distinction in 2018. Her academic excellence earned her a prestigious scholarship from the German Academic Scholarship Foundation. She later obtained her doctoral degree (Dr.-Ing.) with honors for her significant research in polymer systems. Prior to her university studies, she attended Albertus Magnus High School in Regensburg and participated in a student exchange program in Navan, Ireland, enriching her international academic exposure early on.

🏢 Professional Experience

Dr. Rösel’s professional trajectory began as a student assistant from 2014 to 2018, teaching subjects like mathematics and design theory. In 2019, she became a Research Associate at the Chair of Plastics Engineering at FAU, contributing to various high-impact projects. By 2021, she was promoted to Head of Department, and in 2024, she also assumed the role of Senior Engineer (Deputy Head). Her current position as Academic Councilor underscores her leadership in research and academic affairs. Dr. Rösel has supervised numerous theses and served as a substitute lecturer, nurturing the next generation of mechanical engineers.

🏆 Awards and Honors

Dr. Rösel has received several academic honors, including a prestigious scholarship from the German Academic Scholarship Foundation. Her academic journey was marked by the completion of her doctoral studies with distinction. She gained international experience through a student exchange in Ireland, reflecting her adaptability and global engagement. Additionally, her teaching excellence and continued involvement in supervising research work further underscore her contribution to the academic community. Her scholarly output and leadership roles also serve as professional accolades, solidifying her standing as a respected figure in Mechanical and Plastics Engineering.

🔬 Research Focus

Dr. Rösel’s research specializes in polymer-based systems, particularly focusing on thermal conductivity, magnetic properties, and mechanical behavior of thermoset and thermoplastic composites. Her work aims to improve the sustainability and efficiency of polymer-bonded magnets and hybrid filler systems. She has significantly contributed to the understanding of recycling strategies for magnetic materials and the development of functional thermosets for industrial applications. Her projects are often interdisciplinary, combining materials science, mechanical engineering, and magnetism. With over 21 scientific papers and an h-index of 4, Dr. Rösel’s research is widely cited and has influenced contemporary advancements in mechanical and polymer engineering.

📌 Conclusion

Dr.-Ing. Uta Rösel is a distinguished mechanical engineer and academic leader whose work bridges the gap between research innovation and industrial relevance. Her dedication to advancing polymer-based materials, sustainability in engineering, and academic mentoring has positioned her as a key contributor to Germany’s mechanical engineering landscape. Through her dual roles in teaching and research, Dr. Rösel continues to inspire both students and fellow researchers, making notable strides in material science and plastics technology at Friedrich-Alexander University Erlangen-Nürnberg.

📚 Top Publications

  1. Correlation of the Thermal Conductivity and Mechanical Properties in Hybrid Filler Systems of Thermosets
    🔹 Polymers, 2025
    🔹 Cited by: 2 articles

  2. Influence of Application Conditions on the Magnetic Properties of Recycled Polymer-Bonded Magnets Based on Thermoplastics and Ferrite-Based Fillers
    🔹 Recycling, 2025
    🔹 Cited by: 3 articles

  3. Influence of Different Filler Systems on the Thermal Conductivity and Mechanical Properties of Thermosets
    🔹 Polymers, 2024
    🔹 Cited by: 2 articles

  4. Evaluation of a Recycling Strategy for Polymer-Bonded Magnets Based on Thermosets
    🔹 Recycling, 2024
    🔹 Cited by: 3 articles

  5. The Influence of the Design and Technological Parameters of Polymer-Based Multipolar Magnets with SrFeO Hard Magnetic Filler on the Residual Magnetic Properties
    🔹 Magnetism, 2024
    🔹 Cited by: 1 article

  6. Changes in Material Behavior according to the Amount of Recycled Magnetic Materials in Polymer-Bonded Magnets Based on Thermoplastics
    🔹 Magnetism, 2024
    🔹 Cited by: 2 articles

  7. Correlation between the Material System and the Magnetic Properties in Thermoset-Based Multipolar Ring Magnets
    🔹 Magnetism, 2023
    🔹 Cited by: 3 articles

  8. Extension of the Application Range of Multipolar Bonded Ring Magnets by Thermosets in Comparison to Thermoplastics
    🔹 Magnetism, 2023
    🔹 Cited by: 4 articles