About this book:

*Seismic-Resilient Structural Engineering: Design strategies, retrofitting techniques, and performance-based seismic assessment for buildings and infrastructure* offers a comprehensive and essential guide for navigating the complexities of earthquake-resistant construction. This authoritative text begins by demystifying the fundamental principles of earthquake mechanics, ground motion generation, and critical site effects, laying a robust theoretical foundation. It then meticulously explores the dynamic response of various structural systems—from moment frames and shear walls to braced and composite structures—providing a deep understanding of how buildings interact with seismic forces. A significant portion of the book is dedicated to the cutting-edge philosophy of Performance-Based Seismic Design (PBSD), detailing how to define explicit performance objectives and measurable acceptance criteria to ensure structures achieve predictable, tailored outcomes, whether that's immediate occupancy or preventing collapse.

The book excels in its practical guidance on retrofitting existing, vulnerable structures, a critical challenge in many earthquake-prone regions. It offers in-depth coverage of diverse strengthening techniques, including the transformative application of Fiber-Reinforced Polymers (FRPs) for enhancing ductility and strength in concrete and masonry. Crucially, it dedicates extensive chapters to advanced protective systems like seismic isolation and energy dissipation devices (dampers), explaining their theory, design, and integration for both new and existing buildings. Beyond individual structures, the text broadens its scope to address the seismic resilience of foundations, utilities, and critical infrastructure, emphasizing the interconnectedness of urban systems. The final chapters delve into seismic risk analysis, loss estimation, and the vital role of urban planning and policy integration in fostering truly resilient communities, concluding with a forward-looking exploration of future trends in AI, smart materials, and holistic resilience.

An indispensable resource for structural engineers, students, and practitioners, this book bridges the gap between theoretical knowledge and actionable guidance. It equips readers with advanced analytical tools—from pushover analysis to nonlinear time history and incremental dynamic analysis—to accurately assess structural performance and verify design objectives. By emphasizing capacity design and ductile detailing, it ensures that structures are not just strong, but intelligently engineered to yield predictably and dissipate energy safely. Whether you're designing a new high-rise, evaluating an historic landmark, or contributing to regional resilience planning, *Seismic-Resilient Structural Engineering* provides the deep technical understanding and practical strategies necessary to build safer, more functional, and rapidly recoverable environments in the face of seismic uncertainty.

What You'll Find Inside:

• Master the fundamentals of earthquake mechanics, ground motion generation, propagation, and critical local site effects like liquefaction, which profoundly impact structural response.
• Explore advanced dynamic analysis techniques including nonlinear time history analysis (NLTHA) and incremental dynamic analysis (IDA) to accurately predict structural behavior and quantify damage under seismic loading.
• Understand capacity design principles and ductile detailing for reinforced concrete, steel, and composite structures, ensuring controlled inelastic deformation and preventing brittle failures in seismic events.
• Learn about innovative seismic protective systems, including base isolation and various energy dissipation devices (dampers), for both new construction and retrofitting existing vulnerable buildings.
• Examine the methodologies of Performance-Based Seismic Design (PBSD) and assessment, defining performance objectives and acceptance criteria for achieving specific post-earthquake functionality and recovery, integrated with urban planning and policy for community resilience.

Who's It For:

This book is for structural engineers, civil engineering students, and practitioners seeking a comprehensive resource on seismic-resilient design. It is particularly valuable for those involved in designing new structures in earthquake-prone areas, evaluating and retrofitting existing vulnerable buildings, or contributing to urban planning and policy development for community-wide seismic resilience.