Dr. Djerrad Abderrahim | FRP in Civil Engineering | Best Researcher Award
Tongji University - China
Professional Profiles:
Early Academic Pursuits
Abderrahim Djerrad’s journey in civil and structural engineering began at University Ferhat Abbas in Setif, Algeria, where he earned his Bachelor's degree in Civil Engineering from 2006 to 2009. His academic pursuits continued at the same university, leading to a Master's degree in Civil and Structural Engineering between 2009 and 2011. His early education laid the groundwork for a robust understanding of engineering principles, which he further enhanced by pursuing a PhD at the Harbin Institute of Technology in Harbin, China. During his doctoral studies from 2015 to 2020, Djerrad specialized in the performance of composite materials, specifically AFRP (Aramid Fiber Reinforced Polymer) strengthened circular steel tubes under axial compression and impact load. His dissertation provided significant insights into the applications and resilience of composite materials in structural engineering.
Professional Endeavors
Djerrad’s professional career is marked by diverse roles across several countries, showcasing his adaptability and expertise in handling complex engineering projects. From 2012 onwards, Djerrad worked in various capacities such as Head of Technical Services at DIVINDUS industrial zones corporation and as a Civil Engineer with LLC BARA NOUI & Brothers in Setif, Algeria. His responsibilities included overseeing the technical management of industrial zones, developing environmental protection measures, and engaging in detailed civil and MEP (mechanical, electrical, and plumbing) works.
In 2021, he began his current role as a Postdoctoral Researcher at Tongji University in Shanghai, China. Here, Djerrad has contributed to shaking table model tests and seismic performance analysis of industrial structures, notably a 240-meter industrial chimney, aimed at updating the Chinese design codes. His work extends to the design of innovative structural solutions using self-centering hybrid precast walls and the testing of new viscous elastic damping systems.
Contributions and Research Focus on FRP in Civil Engineering
Djerrad’s contributions to civil and structural engineering are profound, particularly in the field of seismic safety and the innovative use of composite materials in construction. His research at Tongji University includes developing vibration evaluation methods for buildings situated over train tracks in Shanghai, reflecting his commitment to enhancing infrastructure resilience against environmental impacts. His ability to bridge practical construction challenges with advanced research methodologies has positioned him as a key figure in modern civil engineering.
Accolades and Recognition
While specific awards and recognitions are not detailed, Djerrad’s professional progress and the adoption of his research outcomes by industry peers and at academic levels serve as implicit acknowledgments of his contributions to the field. His role in updating design codes in China marks a significant milestone in his career, influencing industry standards and practices.
Impact and Influence
Djerrad's work has significant implications for the safety and efficiency of large-scale civil engineering projects, particularly in seismically active regions. By focusing on the seismic retrofitting of structures and the innovative application of composite materials, he has helped advance the field's understanding of how buildings can be designed to withstand environmental stresses. His research has not only influenced academic circles but also impacted practical engineering approaches in China and Algeria.
Legacy and Future Contributions
Looking forward, Djerrad aims to continue his research into sustainable and resilient building practices. His ongoing work with hybrid materials and innovative construction techniques is paving the way for future developments in the field. As climate change and urbanization pose new challenges to civil engineering, Djerrad’s work is increasingly relevant in developing solutions that ensure the safety, sustainability, and efficiency of infrastructure worldwide. His legacy, characterized by a commitment to advancing structural engineering through innovation and rigorous research, will influence both current and future generations of engineers.