Project Abstract

Abstract
Seismic retrofitting of existing buildings is a critical aspect of structural engineering, aiming to enhance the seismic performance and safety of structures in earthquake-prone regions. This research project focuses on exploring and implementing innovative techniques for seismic retrofitting to improve the resilience of existing buildings. The study addresses the pressing need to upgrade older structures to meet modern seismic design standards and mitigate the potential risks associated with seismic events. The introduction provides an overview of the significance of seismic retrofitting in enhancing building resilience and reducing the impact of earthquakes on structures and occupants. The background of the study delves into the historical context of seismic retrofitting practices and the evolution of techniques over time. The problem statement highlights the challenges and limitations faced in retrofitting existing buildings and the need for innovative solutions to address these issues effectively. The objectives of the study are to investigate advanced seismic retrofitting techniques, evaluate their effectiveness in enhancing building performance, and develop practical guidelines for implementing these techniques in real-world projects. The research methodology encompasses a comprehensive literature review, case studies, numerical simulations, and structural analyses to assess the performance of innovative retrofitting solutions. The literature review chapter synthesizes existing knowledge on seismic retrofitting techniques, including base isolation, energy dissipation devices, fiber-reinforced polymers, and innovative materials. The review also explores case studies of successful retrofitting projects worldwide, highlighting best practices and lessons learned from past experiences. The research methodology chapter outlines the detailed approach and procedures adopted to achieve the study objectives. This includes conducting field surveys, collecting data on existing buildings, performing structural analyses using software tools, and evaluating the seismic performance of retrofitted structures through numerical simulations. The findings chapter presents a comprehensive analysis of the performance of innovative seismic retrofitting techniques based on numerical simulations and case studies. The discussion focuses on the effectiveness of these techniques in improving building resilience, reducing structural vulnerabilities, and enhancing seismic performance. In conclusion, this research project contributes to the field of structural engineering by advancing the knowledge and understanding of seismic retrofitting techniques. The study underscores the importance of adopting innovative solutions to enhance the seismic resilience of existing buildings and mitigate the risks associated with earthquakes. The findings and recommendations from this research can inform future retrofitting projects and guide structural engineers in implementing sustainable and cost-effective solutions to improve building safety in seismic regions.

Project Overview