Prof. Song Fei | Geosynthetics – Professor at Chang’an University, China
Professor Fei Song is a leading expert in geotechnical engineering with a specialization in geocell-reinforced soil structures. His research has significantly advanced the understanding of reinforced retaining walls and slopes, making substantial contributions to both theory and practice in civil infrastructure. Known for his interdisciplinary approach and application-oriented innovations, Professor Song has become a key figure in the field, driving forward engineering practices through a combination of modeling, experimentation, and field implementation.
Profile:
Education:
Professor Song earned his doctoral degree in geotechnical engineering, focusing on the mechanical behavior of reinforced soils and soil-structure interaction. His academic training provided a strong foundation in soil mechanics, structural analysis, and numerical simulation. This background has been instrumental in developing sophisticated models and practical methodologies for geocell-reinforced systems used in highways and other critical infrastructure projects.
Experience:
Currently serving as a professor at the School of Highway, Chang’an University, Professor Song has led numerous national and provincial research projects. His work spans from theoretical developments to real-world implementation, including consultancy roles in major highway expansions in Guangdong Province. With hands-on experience in engineering applications, he brings a practical dimension to academic research, ensuring that his findings directly benefit infrastructure design and construction.
Research Interests:
Professor Song’s core research interests include reinforced slopes and retaining walls, the mechanical behavior of geocell-reinforced soil under static and dynamic conditions, the development of innovative geosynthetic materials, and advanced geotechnical centrifuge model tests. His investigations often combine experimental analysis with finite element modeling to optimize the performance and safety of soil-structure systems. His current focus includes developing nonlinear models and improving design methods for geosynthetic-reinforced earth structures.
Awards:
While formal award recognitions are still emerging, Professor Song’s academic career has been marked by prestigious research grants from the National Natural Science Foundation of China and other key institutions. His patented innovations and practical engineering solutions highlight his outstanding contributions to the geotechnical engineering community, making him a strong contender for the Best Researcher Award.
Publications:
Professor Song has published extensively in top-tier, peer-reviewed journals. Notable works include:
📘 “Development and application of a nonlinear stress dilatancy model for geocell-reinforced soil via the FEM” – Geotextiles and Geomembranes, 2025. This paper has drawn attention for its advanced modeling approach and has been cited in new FEM-based studies.
🧱 “Evaluation of required stiffness and strength of cellular geosynthetics” – Geosynthetics International, 2022. A key reference for material design in reinforced soil systems.
📐 “Analyzing the deformation and failure of geosynthetic-encased granular soil in the triaxial stress condition” – Geotextiles and Geomembranes, 2020. Used widely for analyzing soil behavior under compression.
🏗️ “Centrifuge tests of geocell-reinforced retaining walls at limit equilibrium” – Journal of Geotechnical and Geoenvironmental Engineering, ASCE, 2018. Frequently cited in validation studies of soil-structure interaction.
🧪 “Numerical analysis of geocell-reinforced retaining wall failure modes” – Geotextiles and Geomembranes, 2018. Influential in developing safety standards for retaining structures.
🏞️ “Stability analysis of geocell-reinforced retaining walls” – Geosynthetics International, 2017. This article laid the foundation for several current slope stabilization methods.
📊 “Three-dimensional numerical modelling of geocell-reinforced soils and its practical application” – Geomechanics and Engineering, 2019. Widely referenced in infrastructure project simulations.
Conclusion:
In conclusion, Professor Fei Song exemplifies the ideal candidate for the Best Researcher Award. With groundbreaking research, innovative patents, impactful consultancy, and influential publications, his contributions address critical challenges in geotechnical engineering. His work bridges the gap between academic research and practical application, enhancing the design, safety, and efficiency of infrastructure systems. As a scholar, inventor, and mentor, he continues to shape the future of soil reinforcement technologies, positioning himself as a valuable asset to the academic and engineering communitie