Alessandro Palermo

Alessandro Palermo is a distinguished professor of structural engineering at the Jacobs School of Engineering, University of California-San Diego. With an extensive background in structural engineering, his research primarily revolves around enhancing the resilience and sustainability of infrastructure. His work is particularly focused on seismically resilient connections and materials for concrete bridges, timber engineering, and the development of novel cementitious materials. Palermo has made significant contributions to the field through his innovative research on non-metal reinforcement and digital fabrication techniques. His pioneering efforts have led to the development of several patents in mass timber building construction. Notably, he played a crucial role in implementing the first low-damage rocking bridge in Christchurch, New Zealand, showcasing his commitment to advancing bridge engineering. His recent research endeavors aim to improve the long-term resilience of concrete bridges by utilizing durable cementitious materials and non-metal reinforcement. This work is crucial in addressing the challenges posed by corrosion and its impact on the seismic performance of bridges. Palermo's research is instrumental in developing strategies to enhance the durability and safety of critical infrastructure. In addition to his work on concrete bridges, Palermo is also exploring the potential of novel interlocking timber systems and connections to promote circularity in construction. His research in this area seeks to create sustainable and environmentally friendly building solutions. Furthermore, he is actively involved in the development of seismic resilient houses using cutting-edge 3D printed concrete technologies, aiming to revolutionize the construction industry. Palermo's contributions to the field of structural engineering are widely recognized, and his work continues to influence the development of sustainable and resilient infrastructure. His dedication to advancing engineering practices and his innovative approach to research make him a leading figure in the field. Through his efforts, Palermo is paving the way for a more sustainable and resilient built environment.