05297nam 2200649Ia 450 991013951880332120170809153007.01-282-69000-097866126900060-470-61113-80-470-39372-6(CKB)2550000000005863(EBL)477651(OCoLC)520990363(SSID)ssj0000342745(PQKBManifestationID)11243296(PQKBTitleCode)TC0000342745(PQKBWorkID)10285705(PQKB)11107238(MiAaPQ)EBC477651(EXLCZ)99255000000000586320071022d2008 uy 0engur|n|---|||||txtccrSeismic engineering[electronic resource] /Jacques Betbeder-MatibetLondon ISTE ;Hoboken, NJ John Wiley & Sons20081 online resource (987 p.)ISTE ;v.29Description based upon print version of record.1-84821-026-4 Includes bibliographical references and index.Seismic Engineering; Table of Contents; Foreword; Preface; Part 1. Earthquakes and Induced Phenomena; Chapter 1. Causes of Earthquakes; 1.1. Tectonic earthquakes; 1.1.1. First attempts at explanation; 1.1.2. From continental drift to plate tectonics; 1.1.3. Seismicity of tectonic origin; 1.2. Faults; 1.2.1. Relationship between earthquakes and faults; 1.2.2. Classification of faults; 1.2.3. Focal mechanisms; 1.2.4. Different aspects of rupture; 1.3. Non-tectonic earthquakes; 1.3.1. Non-tectonic quakes with natural causes; 1.3.2. Artificial earthquakes; 1.3.3. Induced earthquakesChapter 2. Parameters Used to Define Earthquakes2.1. Elementary theory of elastic rebound; 2.1.1. Description of the elementary model; 2.1.2. Energy balance; 2.1.3. Law of scale; 2.2. Geometry of the faults; 2.2.1. Length of fault and length of rupture; 2.2.2. Well documented examples of fault ruptures; 2.2.3. Correlations of geometric characteristics of ruptures with moment magnitude; 2.3. Parametric description of earthquakes; 2.3.1. Source parameters and effect parameters; 2.3.2. Different magnitudes; Chapter 3. Manifestations of the Seismic Phenomena on the Surface3.1. Deformation of superficial terrains3.1.1. Deformations linked to tectonics; 3.1.2. Deformations linked to vibratory motions; 3.2. Seismic waves; 3.2.1. Different types of seismic waves; 3.2.2. Ideas on the theory of rays; 3.2.3. Attenuation of seismic waves; 3.3. Induced phenomena; 3.3.1. Soil liquefaction; 3.3.2. Landslides; 3.3.3. Tsunamis and seiches; 3.3.4. Other seismic manifestations; Part 2. Strong Ground Motions; Chapter 4. Strong Vibratory Motions; 4.1. Recordings; 4.1.1. Examples of accelerograms recorded in the near zone; 4.1.2. Parametric description of the accelerograms4.1.3. The three components of vibratory motion4.2. Attenuation laws of peak values; 4.2.1. General considerations as regards attenuation laws; 4.2.2. Examples of attenuation laws for peak values; 4.2.3. Recommendations for the use of attenuation laws; 4.3. Directivity effects and site effects; 4.3.1. Inadequacy of a description based on magnitude and distance; 4.3.2. Directivity effects; 4.3.3. Presentation of site effects; 4.3.4. Causes of site effects; Chapter 5. Calculation Models for Strong Vibratory Motions; 5.1. Orders of magnitude deduced from the basic theory of elastic rebound5.1.1. Limits of the basic theory of elastic rebound for the calculation of motions5.1.2. Model of elastic rebound with multiple ruptures; 5.1.3. Calculation of the theoretical attenuation laws associated with the model of rebound elasticity with multiple ruptures; 5.2. Digital source models; 5.2.1. General considerations pertaining to models of digital simulation of the seismic source; 5.2.2. Examples of digital simulation of real earthquakes; 5.3. Practical calculations of the site effects; 5.3.1. Models of soil behavior; 5.3.2. Seismic responses of columns of soil5.3.3. Review of the assessment of site effectsThis title offers a comprehensive coverage of the many facets of seismic engineering.The first half of the book is devoted to seismic phenomena and hazards, detailing the causes of earthquakes, the parameters used to characterize earthquakes, strong ground motions, seismic hazards and their evaluation, and seismic action. The second half discusses the effects of earthquakes and tools used to assess and reduce risk, including the effects of vibratory motions and induced phenomena, seismic calculations and technical aspects of prevention.The importance of keeping orders of magnitude in mISTEEarthquake engineeringEngineering geologyElectronic books.Earthquake engineering.Engineering geology.624.1/762624.1762Betbeder-Matibet Jacques955808MiAaPQMiAaPQMiAaPQBOOK9910139518803321Seismic engineering2163470UNINA