Geotechnical Earthquake Engineering [electronic resource] : Simplified Analyses with Case Studies and Examples / by Milutin Srbulov.

Call Number	624.151
Author	Srbulov, Milutin. author.
Title	Geotechnical Earthquake Engineering Simplified Analyses with Case Studies and Examples / by Milutin Srbulov.
Physical Description	XXIV, 244 p. online resource.
Series	Geotechnical, Geological, and Earthquake Engineering, 1573-6059 ; 9
Contents	Well Known Simplified Models -- Soil Properties -- Seismic Excitation -- Slope Stability and Displacement -- Sand Liquefaction and Flow -- Dynamic Soil – Foundation Interaction -- Bearing Capacity And Additional Settlement of Shallow Foundation -- Seismic Wave Propagation Effect on Tunnels and Shafts -- Comments on Some Frequent Liquefaction Potential Mitigation Measures.
Summary	... "Included on the Choice list with the outstanding academic Earth Sciences titles 2008" ... This volume describes simplified dynamic analyses that bridge the gap between the rather limited provisions of design codes and the rather eclectic methods used in sophisticated analyses. Graphs and spreadsheets are included for the ease and speed of use of simplified analyses of: soil slope (in)stability and displacements caused by earthquakes, sand liquefaction and flow caused by earthquakes, dynamic soil-foundation interaction, bearing capacity and additional settlement of shallow foundations, earthquake motion effects on tunnels and shafts, frequent liquefaction potential mitigation measures. A number of comments on the assumptions used in different methods, limitation and factors affecting the results are given. Several case histories are also included in the appendices in order to assess the accuracy and usefulness of the simplified methods. Audience This work is of interest to geotechnical engineers, engineering geologists, earthquake engineers and students.
Added Author	SpringerLink (Online service)
Subject	EARTH SCIENCES. Geotechnical engineering. ENGINEERING GEOLOGY. Engineering Geology. FOUNDATIONS. HYDRAULICS. Earth Sciences. Geotechnical Engineering & Applied Earth Sciences. Geoengineering, Foundations, Hydraulics.
Multimedia	http://dx.doi.org/10.1007/978-1-4020-8684-7

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950	Earth and Environmental Science (Springer-11646)

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Summary	... "Included on the Choice list with the outstanding academic Earth Sciences titles 2008" ... This volume describes simplified dynamic analyses that bridge the gap between the rather limited provisions of design codes and the rather eclectic methods used in sophisticated analyses. Graphs and spreadsheets are included for the ease and speed of use of simplified analyses of: soil slope (in)stability and displacements caused by earthquakes, sand liquefaction and flow caused by earthquakes, dynamic soil-foundation interaction, bearing capacity and additional settlement of shallow foundations, earthquake motion effects on tunnels and shafts, frequent liquefaction potential mitigation measures. A number of comments on the assumptions used in different methods, limitation and factors affecting the results are given. Several case histories are also included in the appendices in order to assess the accuracy and usefulness of the simplified methods. Audience This work is of interest to geotechnical engineers, engineering geologists, earthquake engineers and students.
Contents	Well Known Simplified Models -- Soil Properties -- Seismic Excitation -- Slope Stability and Displacement -- Sand Liquefaction and Flow -- Dynamic Soil – Foundation Interaction -- Bearing Capacity And Additional Settlement of Shallow Foundation -- Seismic Wave Propagation Effect on Tunnels and Shafts -- Comments on Some Frequent Liquefaction Potential Mitigation Measures.
Subject	EARTH SCIENCES. Geotechnical engineering. ENGINEERING GEOLOGY. Engineering Geology. FOUNDATIONS. HYDRAULICS. Earth Sciences. Geotechnical Engineering & Applied Earth Sciences. Geoengineering, Foundations, Hydraulics.
Multimedia	http://dx.doi.org/10.1007/978-1-4020-8684-7