What is earthquake engineering?
Earthquake engineering is the design and construction of structures, machines and systems to resist the effects of earthquakes. It includes structural engineering, geotechnical engineering and civil engineering. The goal of earthquake engineering is to reduce damage by designing resistant structures that can withstand shaking and shear forces without suffering damage. Earthquake engineering is an extremely important aspect of construction; hence it is taught at length in courses about construction or high-rise building design in Pune or other places. Check out this page for more info.
Earthquake engineering aims to reduce the risks associated with earthquakes by providing standards for building construction that allow buildings to withstand strong ground motions without being damaged by earthquake-induced soil slippage or overturning of columns.
Best books to learn earthquake engineering
Earthquake engineering can become a tedious topic to understand on your own hence you could rely on some books for learning. So here are a few books that could help you on your journey to becoming an expert earthquake engineer:
Fundamentals of seismic protection for bridges
This book is an excellent resource for the study of seismic engineering and earthquake-resistant design in general. It provides an overview of the basics of safety analysis, and bridges are discussed in detail. The author also introduces several methods for calculating the response spectrum from single-degree-of-freedom (SDOF) models, which is a useful way to understand the time history of ground motion in real-life scenarios.
Computer Analysis and Design of Earthquake Resistant Structures
This book provides a comprehensive discussion on computer-aided design and analysis techniques for earthquake-resistant structures, including finite element methods (FE), finite difference methods (FD), finite volume methods (FVM), and boundary element methods (BEM). The authors introduce the reader to important concepts such as seismic loading and its effects on structures, elastic membrane theory, elasticity models and material behaviour, passive structures, and active vibration control systems.
Earthquake Resistant Engineering Structures XI
This book is an essential read for those who are working on earthquake-resistant engineering structures. It covers the different types of earthquake-resistant structures and their applications, as well as detailed descriptions of the design process, materials properties, and the factors that influence their performance. The book also discusses the use of new technologies and methods for improving the effectiveness of mitigating earthquakes.
Seismic Design and Performance
This book is a comprehensive guide to designing, analysing and evaluating earthquake-resistant structures. It covers the basic principles of earthquake engineering, including seismic motion and ground motion, earthquake hazards and seismic risk assessment. The book also includes detailed information about the performance of buildings in earthquakes, with special emphasis on how building structure affects performance.
Displacement-Based Seismic Design of Structures
This is a comprehensive reference book that provides a detailed introduction to the design of structures using new concepts such as displacement-based design and displacement-based analysis for soil and rock layers. The book also explains why these new concepts are necessary for an earthquake-resistant design process and describes how they can be used in practice. This is one of the most recommended books as supplementary material in popular courses about high-rise building design In Mumbai or Jaipur.
Seismic Behaviour and Design of Irregular and Complex Civil Structures
The book Seismic Behaviour and Design of Irregular and Complex Civil Structures II is a must-read for engineers, architects, and civil engineers who are interested in earthquake engineering. It provides a comprehensive overview of all aspects of seismic resistance design for irregular, complex, and irregular-complex structures.
The book is divided into three parts: 1) Introduction to Seismic Design; 2) Seismic Resistance Design for Irregular Structures; 3) Seismic Resistance Design for Complex Structures. Each chapter covers different aspects of earthquake engineering. For example, Chapter 1 covers the basic concepts of seismic waves and their sources. The second chapter deals with seismic wave propagation in structures. In addition to these two chapters, there are also other important topics such as building materials, amplification factors, response spectra, etc.