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Geotechnical Earthquake Engineering, Second Edition

Geotechnical Earthquake Engineering, Second Edition

by Robert W. Day
Geotechnical Earthquake Engineering, Second Edition
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Geotechnical Earthquake Engineering, Second Edition

Geotechnical Earthquake Engineering, Second Edition

by Robert W. Day

Overview

The latest methods for designing seismically sound structures

Fully updated for the 2012 International Building Code, Geotechnical Earthquake Engineering Handbook, Second Edition discusses basic earthquake principles, common earthquake effects, and typical structural damage caused by seismic shaking.

Earthquake computations for conditions commonly encountered by design engineers, such as liquefaction, settlement, bearing capacity, and slope stability, are included. Site improvement methods that can be used to mitigate the effects of earthquakes on structures are also described in this practical, comprehensive guide.

Coverage includes:

  • Basic earthquake principles
  • Common earthquake effects
  • Earthquake structural damage
  • Site investigation for geotechnical earthquake engineering
  • Liquefaction
  • Earthquake-induced settlement
  • Bearing capacity analyses for earthquakes
  • Slope stability analyses for earthquakes
  • Retaining wall analyses for earthquakes
  • Other geotechnical earthquake engineering analyses
  • Grading and other soil improvement methods
  • Foundation alternatives to mitigate earthquake effects
  • Earthquake provisions in building codes

Product Details

ISBN-13: 9780071792394
Publisher: McGraw Hill LLC
Publication date: 08/20/2012
Sold by: Barnes & Noble
Format: eBook
Pages: 692
File size: 89 MB
Note: This product may take a few minutes to download.

About the Author

Robert W. Day (San Diego, CA) has published over 200 papers, as is currently active on various committees with ASCE, ASTM, Tranportation Research Board, and received a design award from AIA. After completing his Bachelors and Masters degrees in Civil Engineering at Villanova specializing in Structural Engineering, he completed his masters in Civil Engineering and Engineer Degree at MIT.

Table of Contents

Chapter 1: Introduction
Part 1: Introduction to Earthquakes
Chapter 2: Basic Earthquake Principles
Chapter 3: Common Earthquake Effects
Chapter 4: Earthquake Structural Damage
Part 2: Geotechnical Earthquake Engineering Analyses
Chapter 5: Site Investigation for Geotechnical Earthquake Engineering
Chapter 6: Liquefaction
Chapter 7: Earthquake-Induced Settlement
Chapter 8: Bearing Capacity Analyses for Earthquakes
Chapter 9: Slope Stability Analyses for Earthquakes
Chapter 10: Retaining Wall Analyses for Earthquakes
Chapter 11: Other Geotechnical Earthquake Engineering Analyses
Part 3: Site Improvement Methods to Mitigate Earthquake Effects
Chapter 12: Grading and Other Soil Improvement Methods
Chapter 13: Foundation Alternatives to Mitigate Earthquake Effects
Part 4: Building Codes
Chapter 14: Earthquake Provisions in 2012 ICC Building Codes
Chapter 15: Summary of Geotechnical Earthquake Engineering
Appendix A: Glossaries

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