960 pages | 509 B/W Illus.
While successfully preventing earthquakes may still be beyond the capacity of modern engineering, the ability to mitigate damages with strong structural designs and other mitigation measures are well within the purview of science. Fundamental Concepts of Earthquake Engineering presents the concepts, procedures, and code provisions that are currently being used to make structures as earthquake-resistant as is presently feasible.
The book begins by describing the purpose, main aspects, and historical development of earthquake engineering and provides an overview of the type and extent of damage an earthquake can produce. It then introduces the concepts of seismology, the mechanisms of earthquake generation and propagation, and the difference between the various scales used to quantify the size of an earthquake and its potential to cause damage. The book also discusses the response spectrum and the different ways earthquake ground motions may be characterized and how local soil conditions may affect ground motion characteristics. Later chapters examine the design spectrum, conventional methods used to calculate the response of structures, soil-structure systems, and nonstructural components to earthquake ground motions.
This comprehensive resource is certain to advance the knowledge of those tasked with taking preemptive action against the devastating effects of major, catastrophic earthquakes.
Seismic Regions of the World
Measurement of Earthquakes
Characterization of Strong Ground Motions
Seismic Hazard Assessment
Influence of Local Site Conditions
Design Response Spectrum
Structural Response by Response Spectrum Method
Structural Response by Step-by-Step Integration Methods
Structural Response by Equivalent Lateral Force Procedure
Structural Response Considering Soil–Structure Interaction
Seismic Response of Nonstructural Elements
Seismic Protection with Base Isolation
Seismic Protection with Energy Dissipating Devices
Seismic Code Provisions