Analyses for Retaining walls, Slope Stability and Landslides
portes grátis
Analyses for Retaining walls, Slope Stability and Landslides
Select Proceedings of 8th ICRAGEE 2024
Kumar, Abhishek; Sarkar, Rajib; Maheshwari, B.K.
Springer Nature Switzerland AG
06/2025
358
Dura
Inglês
9789819616824
Pré-lançamento - envio 15 a 20 dias após a sua edição
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Chapter 1: Field and laboratory testing of soils for the estimation of dynamic soil properties.- Chapter 2: Latest findings on liquefaction of soils.- Chapter 3: Seismic slope stability and landslides.- Chapter 4: Seismic design of retaining walls, marine structures, and dams.- Chapter 5. Seismic design of shallow and deep foundations.- Chapter 6: Soil-structure interaction under dynamic loading.- Chapter 7: Engineering seismology, strong ground motions.- Chapter 8: Ground response analyses and local site effects.- Chapter 9: Seismic hazard analyses: zonation, microzonation, risk assessment.- Chapter 10:Ground improvement techniques for reduction of seismic hazard.- Chapter 11: Role of building codes in reduction of seismic risk.- Chapter 12: Wave propagation, engineering vibrations.- Chapter 13: Vibration problems of high-speed railways.- Chapter 14: Vibration absorption/isolation applications.- Chapter 15:Performance of constructed facilities in extreme events/case histories ofgeotechnical earthquake engineering.- Chapter 16. Reconnaissance reports of recent damaging earthquakes.- Chapter 17: GIS and remote sensing, AI/ ML applications for geo- hazards.- Chapter 18: Sensors and satellite technology for disaster management.Chapter 19. Seismic risk management and economics.- Chapter 20. Community preparedness and pre-earthquake disaster management.- Chapter 21. Innovative geotechnical applications in earthquake disaster management.- Chapter 22. Earthquake engineering education.- Chapter 23. Review of seismic design codes.
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Shallow and deep foundations;Soil-structure interaction;Liquefaction;Seismic slope stability;Ground response analysis;Engineering seismology;Soil dynamics;Geotechnical earthquake engineering
Chapter 1: Field and laboratory testing of soils for the estimation of dynamic soil properties.- Chapter 2: Latest findings on liquefaction of soils.- Chapter 3: Seismic slope stability and landslides.- Chapter 4: Seismic design of retaining walls, marine structures, and dams.- Chapter 5. Seismic design of shallow and deep foundations.- Chapter 6: Soil-structure interaction under dynamic loading.- Chapter 7: Engineering seismology, strong ground motions.- Chapter 8: Ground response analyses and local site effects.- Chapter 9: Seismic hazard analyses: zonation, microzonation, risk assessment.- Chapter 10:Ground improvement techniques for reduction of seismic hazard.- Chapter 11: Role of building codes in reduction of seismic risk.- Chapter 12: Wave propagation, engineering vibrations.- Chapter 13: Vibration problems of high-speed railways.- Chapter 14: Vibration absorption/isolation applications.- Chapter 15:Performance of constructed facilities in extreme events/case histories ofgeotechnical earthquake engineering.- Chapter 16. Reconnaissance reports of recent damaging earthquakes.- Chapter 17: GIS and remote sensing, AI/ ML applications for geo- hazards.- Chapter 18: Sensors and satellite technology for disaster management.Chapter 19. Seismic risk management and economics.- Chapter 20. Community preparedness and pre-earthquake disaster management.- Chapter 21. Innovative geotechnical applications in earthquake disaster management.- Chapter 22. Earthquake engineering education.- Chapter 23. Review of seismic design codes.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
