7 New Earthquake Engineering Books Reshaping the Industry in 2025

Srinivasan Chandrasekaran, Giorgio Serino, and Mariacristina Spizzuoco bring a fresh and precise focus to earthquake engineering through their detailed exploration of structural dynamics and control methods. Rather than retread familiar territory in earthquake-resistant design, they dive into analytical techniques for structures facing seismic, fire, and impact loads, illustrated with MATLAB examples and comprehensive case studies. You’ll find clarity in the response spectrum method and nonlinear time history analysis, along with practical insights into form-dominant design for offshore and conventional structures. This book is designed for engineers and researchers aiming to deepen their technical understanding beyond basic seismic design principles.

Steven L. Kramer and Jonathan P. Stewart bring their extensive expertise in geotechnical and earthquake engineering to this updated edition, aiming to bridge introductory concepts with advanced applications. You’ll explore detailed topics ranging from seismology fundamentals and earthquake ground motions to hazard analysis and dynamic soil properties, making it clear how soil behavior interacts with seismic forces. The book’s chapters on site response, soil-structure interaction, and ground failures like liquefaction and landslides offer practical insights crucial for both graduate students and practicing engineers. If your work or studies involve designing structures to withstand seismic events, this book provides a thorough foundation paired with interdisciplinary perspectives that integrate seismology, structural engineering, and geotechnical principles.

This tailored book explores the latest breakthroughs in earthquake engineering as of 2025, focusing on emerging research and novel discoveries that are shaping the field. It examines advancements in seismic analysis, structural resilience, soil-structure interactions, and disaster mitigation, all curated to match your background and specific interests. By concentrating on your goals, this personalized resource reveals cutting-edge topics such as innovative materials, real-time monitoring technologies, and updated seismic codes, enabling a deeper understanding of contemporary challenges and solutions. The tailored content encourages an engaging learning experience, helping you stay current with new seismic engineering developments relevant to your pursuits.

After analyzing extensive seismic data and damage from recent earthquakes, Masamitsu Ohta, Motoi Yasumura, and Takafumi Nakagawa developed this book to address gaps in timber structure earthquake resistance. You gain detailed insights into how timber buildings behave under seismic stress beyond static models, focusing on dynamic collapse prediction using advanced simulation tools like the Wallstat software. Chapters explore the seismic performance requirements, design principles, and practical examples of collapse analysis, making it particularly useful if you work with timber engineering or want to deepen your understanding of structural failure mechanisms in earthquakes. This book suits structural engineers, researchers, and professionals aiming to improve timber construction resilience through modeling and simulation techniques.

The breakthrough moment came when Moosa Mazloom, a seasoned civil engineering professor with decades of hands-on experience, compiled this work to address the persistent challenges of seismic resilience in concrete and steel structures. You’ll gain detailed knowledge on reinforcement detailing, shell elements, and adherence to critical building codes like ACI and AISC, supported by real project photos Mazloom personally gathered. Chapters conclude with targeted questions, making it a practical tool to deepen your technical understanding and troubleshoot construction challenges. This book suits students, researchers, and emerging professionals who want to bridge theory and practice in earthquake-resistant design, though those outside structural engineering might find it quite specialized.

After analyzing extensive international case studies and recent seismic events, Jonathan Hinks developed this focused guide on the challenges of dam design and maintenance in earthquake-prone regions. You’ll gain insights into seismic input parameters, reservoir-triggered seismicity, and the performance criteria tailored to various dam types, including rockfill and tailing dams. With detailed chapters on earthquake-induced landslides, seiches, and instrumentation, this book equips you with the technical understanding necessary to evaluate risks and mitigation strategies effectively. It’s especially suited for engineers, dam managers, and students who need a deep dive into seismic considerations specific to dam infrastructure.

This tailored book explores the latest developments and emerging research in earthquake engineering, focusing on the breakthroughs and challenges shaping the field in 2025. It covers innovations in seismic design codes, advanced modeling techniques, and forward-looking approaches to structural resilience. By aligning with your background and interests, this personalized guide reveals insights into upcoming regulatory changes and evolving engineering practices critical for future-proofing your projects. Its focused content matches your goals, helping you navigate complex seismic risks with up-to-date knowledge. Whether you want to deepen your understanding of soil-structure interaction or explore cutting-edge materials, this book tailors the journey to your professional needs, empowering you to anticipate and address the seismic challenges ahead.

Drawing from the extensive expertise of the late Professor D. K. Paul, this collection delves into key advances in earthquake engineering and disaster mitigation with a focus on India’s seismic challenges. You’ll explore topics like nonlinear seismic responses, soil-structure interactions, and innovative design approaches under severe loading conditions, supported by detailed case studies that illuminate real-world seismic behavior. The book’s organization helps you systematically understand earthquake phenomena while offering frameworks to evaluate and improve structural performance in quake-prone regions. It’s particularly beneficial if you’re involved in research or engineering practice aimed at reducing earthquake risks through both theoretical insight and applied methods.

What happens when anthropology meets earthquake engineering? Elizabeth Reddy, drawing on ethnographic fieldwork and archival research, examines the Sistema de Alerta Sísmica Mexicano, the world’s oldest public earthquake early warning system, to reveal how such technologies emerge and operate within complex social and political contexts. You’ll gain insights into the challenges of aligning technological promises with lived realities, understanding how engineers, policymakers, and communities interact to shape risk mitigation strategies. Chapters explore the tensions between universalist techno-solutions and locally grounded approaches, making this book especially relevant if you want to grasp the human and environmental dimensions behind seismic safety efforts. It’s a sharp critique and a vivid narrative that deepens your perspective on what it means to live with earthquake risk in Mexico City and beyond.