Comparative Seismic Analysis and Design of (G + 27) High-Rise Buildings: Reinforced Concrete, Steel, and Composite Systems in Zones II and IV
摘要
Every day, we see a growing range of choice-based infrastructure. This project examines how composite systems can be used in the analysis and design of high-rise buildings, specifically in seismic zones II and IV, utilizing advanced software capabilities. In recent years, composite systems combining steel and concrete elements have gained prominence due to their improved structural performance and reduction in self weight due to reducing the size of element. The study incorporates to investigate the behavior of composite systems, nonlinear dynamic analysis in seismic zones II and IV, optimize their design, sustainability, construction feasibility, and ensure compliance with relevant codes and standards. The materials majorly employed include steel flanges and concrete by code-based design checks and using Etabs software for modeling G + 27 building, analyzing, designing, and conducting dynamic analyses in seismic zones II and IV. This project aims to conduct a comparative analysis of reinforced concrete, steel, and composite structures to assess their performance and efficiency in high-rise buildings, providing valuable insights for future research and practice.