Mrs. Lysa Benaddache | Civil Engineering | Best Researcher Award

Mrs. Lysa Benaddache | University Of Bordj Bou Arreridj | Algeria

Lysa Benaddache is a PhD student jointly affiliated with the LIMEEDD Laboratory, Department of Civil Engineering, Mohamed El-Bachir El-Ibrahimi University of Bordj Bou Arreridj in Algeria, and the L2MGC Laboratory at CY Cergy Paris Université in France. She holds a Master’s degree in Hydraulic Constructions and Developments and is currently engaged in doctoral research focusing on the development of sustainable eco-composite materials for the repair and strengthening of concrete structures under the effects of climate change. she has also served as a part-time lecturer, contributing to academic teaching and the supervision of final-year projects. Her research integrates areas such as reinforced concrete corrosion, eco-material design, and geopolymer technology aimed at sustainable structural repair. With an h-index of 3 on Scopus and seven published journal articles, her scientific contributions emphasize the use of natural fibers, industrial waste, and biowaste in developing eco-friendly alternatives to synthetic composites. Her studies demonstrate that certain natural fibers can match or even surpass the mechanical properties of traditional glass fibers, enhancing structural durability and sustainability. She is an active member of both the LIMEEDD and L2MGC laboratories, collaborating on innovative research in fiber-reinforced eco-composites, particularly focusing on optimizing date palm fiber treatment to improve mechanical performance and environmental resilience. Dedicated to advancing sustainable construction materials, Lysa Benaddache’s research contributes significantly to eco-innovation and the future of resilient infrastructure systems.

Profile: Scopus | Google Scholar

Featured Publications

Benaddache, L., Belkadi, A. A., Berkouche, A., Hadzima-Nyarko, M., et al. (2025). Modeling and optimization for the combined valorization of calcined sediments and ground blast-furnace slag in eco-mortar formulations: Rheological, mechanical, microstructural, and environmental assessments. Structures.

Benaddache, L., Belkadi, A. A., Berkouche, A., Aggoun, S., et al. (2025). Advancing structural flexural reinforcement with natural and synthetic fiber composites: Optimization of EBR and EBROG methods supported by DIC. Structures.

Berkouche, A., Belkadi, A. A., Benaddache, L., Aggoun, S., et al. (2025). Enhancing physical, mechanical, and durability properties of slag-based geopolymers through ceramic waste incorporation: A comprehensive optimization study. Journal of the Taiwan Institute of Chemical Engineers.

Benaddache, L., Belkadi, A. A., Berkouche, A., Amziane, S., Alomayri, T., Achour, Y., & Benammar, A. (2024). Experimental optimization of low-carbon cellular foam geopolymers incorporating crushed stone sand and flax fiber using central composite design. Iranian Journal of Science and Technology, Transactions of Civil Engineering, 4, 3999–4019.

Benaddache, L., Belkadi, A. A., Kessal, O., Tayebi, T., & Aggoun, S. (2024). Comparative study on externally bonded heat-treated jute and glass fiber reinforcement for repair of pre-cracked high performance concrete beams.

Dr. Amr Seif | Hybrid composites | Best Researcher Award

Faculty of engineering Zagazig university - Egypt

Professional Profiles:

Early Academic Pursuits

Amr Saefeldean embarked on his academic journey with a Bachelor's degree in Mechanical Design and Production Engineering, where he excelled with First-Class Honors from Zagazig University, Egypt. During this time, he demonstrated a keen interest in innovative research areas, including fiber metal laminates, dynamic material behavior, and eco-friendly materials. His graduation project on the design and testing of a speed bump energy harvester showcased his early dedication to practical applications of mechanical engineering principles.

Professional Endeavors

After completing his undergraduate studies, Amr pursued a Master's degree in Mechanical Design and Production Engineering at Zagazig University, focusing on the machinability of metallic-reinforced polymeric matrix composites. His research involved optimizing manufacturing processes through the Taguchi approach and Grey Relational Analysis, demonstrating his proficiency in experimental design and statistical analysis. Throughout his academic journey, he actively engaged in teaching activities, supervising workshop training programs, and instructing undergraduate courses, further enhancing his expertise in mechanical engineering education.

Contributions and Research Focus on Hybrid composites

Amr's research contributions lie at the intersection of composite materials, machining, and experimental design. His expertise spans fiber metal laminates, nontraditional machining of composites, and the dynamic behavior of materials. Through his master's thesis and various research experiences, he has delved into the mechanical characterization of hybrid composite materials, aiming to address critical challenges faced by industrial sectors. His focus on eco-friendly materials underscores his commitment to sustainable engineering practices, aligning with global efforts towards environmental conservation.

Accolades and Recognition

Amr's academic achievements and research contributions have been recognized through accolades such as his outstanding GPA during his Master's degree and his active involvement in research projects. His proficiency in experimental design, statistical analysis, and machining techniques has garnered appreciation from peers and mentors alike, positioning him as a promising researcher in the field of mechanical engineering.

Impact and Influence

He research endeavors have the potential to significantly impact the development of sustainable materials and manufacturing processes. By optimizing the machinability of composite materials and exploring eco-friendly alternatives, he aims to contribute to the advancement of industries reliant on lightweight, durable, and environmentally conscious materials. His teaching activities and mentorship roles have also influenced aspiring engineers, nurturing a new generation of researchers committed to innovation and sustainability.

Legacy and Future Contributions

His academic and professional journey, he envisions a legacy of pioneering research in sustainable materials and manufacturing techniques. His dedication to addressing real-world challenges through interdisciplinary research and collaboration sets the stage for impactful contributions to the field of mechanical engineering. With a focus on eco-friendly materials and innovative manufacturing processes, he strives to leave a lasting legacy of sustainability and excellence in engineering education and research.

Citations:

Citations 15

h-index 3

Documents 5

Notable Publications:

Evaluation of hole quality in drilling process of GF/Aluminum wire mesh reinforced epoxy composites, 2024

Hole quality evaluation for abrasive water jet drilling of GF/Al mesh reinforced epoxy hybrid composites, 2024, (3)

Bearing strength performance: A study on the influence of AWJ drilling and delamination of GF/Al-mesh reinforced polymer composites, 2024

Optimization of AWJ parameters for improved material removal and hole geometry in drilling of Glass Fiber/Aluminum mesh epoxy hybrid composites, 2024, (2)

Effect of drilling process parameters on bearing strength of glass fiber/aluminum mesh reinforced epoxy composites, 2023, (10)

Lysa Benaddache | Civil Engineering | Best Researcher Award

Mrs. Lysa Benaddache | Civil Engineering | Best Researcher Award