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Earthquake resistant design. --- Buildings --- Retrofitting.
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On 17th January 1995 an inland earthquake of 7.2 magnitude occurred under Kobe city in central Japan. More than 5,500 people lost their lives. There was immense and serious damage to buildings. Researchers and engineers were shocked and astonished by the extent of the devastation and loss of life. Ground motions, generated by the event were far greater than the seismic standard for earthquake-proof designs in Japan. Recent academic progress in the fields of geology and geophysics, which would help to reduce the severity of seismic disasters, has not been sufficiently applied to the developme
Earthquake resistant design. --- Faults (Geology) --- Earthquake engineering.
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Earthquake resistant design. --- Aseismic design --- Seismic design --- Earthquake engineering --- Structural design --- Vertical evacuation structures
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Since the publication of the first Dams and Earthquakes in 1976, the phenomenon of reservoir induced seismicity (RIS) is more widely understood. There are now over 70 known cases of reservoir-induced earthquakes. These damaging earthquakes have occurred in China, Kariba, Zambia, Greece, Kremasta, Koyna, India, California and elsewhere. The December 10, 1967 Koyna earthquake, with a magnitude of 6.3 claimed over 200 lives, injured 1500 and rendered thousands homeless. Because of the ever increasing demand for dam construction, for power generation, irrigation, and flood control, i
Reservoir-triggered seismicity. --- Earthquakes, Reservoir-induced --- Earthquakes, Water-induced --- Reservoir-induced earthquakes --- Reservoir-induced seismicity --- RIS (Seismology) --- RTS (Seismology) --- Water-induced earthquakes --- Induced seismicity --- Earthquake resistant design. --- Hydraulic models. --- Reservoirs
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Theoretical Foundation Engineering provides up-to-date, state-of-the-art reviews of the existing literature on lateral earth pressure, sheet pile walls, ultimate bearing capacity of shallow foundations, holding capacity of plate and helical anchors in sand and clay, and slope stability analysis.The discussion of the ultimate bearing capacity of shallow foundations is the most comprehensive presentation on the subject to be found anywhere, and the review of earth anchors is unique to this book. In addition, each chapter includes several topics which have never appeared in any other boo
Foundations --- Soil mechanics --- Grouting. --- Rock excavation. --- Diaphragm walls. --- Rock mechanics. --- Soil mechanics. --- Soil engineering --- Soils --- Soils (Engineering) --- Geotechnical engineering --- Mechanics --- Soil physics --- Walls --- Excavation --- Compaction grouting --- Grouting --- Jet grouting --- Low mobility grouting --- Pressure grouting --- Concrete construction --- Soil compaction --- Soil stabilization --- Shaft sinking. --- Ground control (Mining) --- Control of ground in mining --- Ground support (Mining) --- Mine subsidences --- Mining engineering --- Rock mechanics --- Boring --- Mine shafts --- Finite element method. --- Groundwater flow -- Mathematical models. --- Groundwater flow --- Finite element method --- Mechanical Engineering --- Engineering & Applied Sciences --- Hydraulic Engineering --- FEA (Numerical analysis) --- FEM (Numerical analysis) --- Finite element analysis --- Numerical analysis --- Isogeometric analysis --- Mathematical models --- Plastic properties. --- Breakwaters --- Shore protection --- Hydrodynamics. --- Fluid dynamics --- Beach erosion --- Coast protection --- Coast protective works --- Coastal zone management --- Coastal engineering --- Hydraulic engineering --- Reclamation of land --- Harbors --- Hydraulic structures --- Sea-walls --- Design and construction. --- Prevention --- Slopes (Soil mechanics) --- Probabilities. --- Statistical methods. --- Rockfills. --- Rockfills --- Design and construction --- Méthode des éléments finis --- Géophysique. --- Geophysics --- Géodynamique. --- Geodynamics --- Sismologie. --- Seismology --- Géophysique --- Géodynamique --- Sismologie --- Probability --- Statistical inference --- Combinations --- Mathematics --- Chance --- Least squares --- Mathematical statistics --- Risk --- Geotechnical engineering. --- Engineering, Geotechnical --- Geotechnics --- Geotechnology --- Engineering geology --- Rheology. --- Colloids --- Deformations (Mechanics) --- Elasticity --- Plasticity --- Viscosity --- Buildings --- Stochastic processes --- Earthquake engineering --- Civil engineering --- Engineering --- Shear walls --- Earthquake effects --- Statistical methods --- Construction --- Foundations. --- Grouting (Soil stabilization) --- Geological surveys. --- Retaining walls. --- Permeability. --- Porosity. --- Slopes (Soil mechanics). --- Mathematical models. --- Hydraulic structures - Design and construction --- Ocean waves --- Roches, Mécanique des. --- Géologie appliquée. --- Grands travaux. --- Ocean waves. --- Vagues --- Breakers --- Sea waves --- Surf --- Swell --- Oceanography --- Water waves --- Earthquake engineering. --- Earthquake resistant design. --- Aseismic design --- Seismic design --- Structural design --- Vertical evacuation structures --- Earthquakes and building --- Earthquake effects. --- Subsidences (Earth movements) --- Land subsidences --- Earth movements --- Soil dynamics --- Mining engineering. --- Engineering, Mining --- Mines and mining --- Mining --- Architecture --- Building --- Structural engineering --- Underground construction --- Caissons --- Earthwork --- Masonry --- Soil consolidation --- Details --- Fills, Rock --- Rocks --- Equilibrium (physics) --- Slopes --- GEOLOGIE DE L'INGENIEUR --- GRANDS TRAVAUX --- PROPRIETES MECANIQUES ROCHES --- GEOMORPHOLOGIE GENERALE --- GEOMORPHOLOGIE VERSANTS --- Wave propagation --- Coastal engineering.
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