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Earthquake engineering : theory and implementation with the 2015 International Building Code /
This authoritative resource has been thoroughly revised and expanded to contain the latest earthquake-resistant engineering techniques and regulations conforming with the 2015 International Building Code.
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
?2015.
|
| Edición: | 3rd edition. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- A. Foreword
- B. Acknowledgment
- 1. Introduction
- 2. Characteristics of Earthquakes
- Causes of Earthquakes
- Plate Tectonic Theory
- Measures of Earthquakes
- 3. Linear Elastic Dynamic Analysis
- Introduction
- Single Degree of Freedom System
- Generalized Single Degree of Freedom
- Multiple Degrees of Freedom System
- Shear Beam
- Cantilever Flexure Beam
- Simple Flexure Beam
- Axial Beam
- Finite Element Method
- Incoherence
- Problems
- 4. Nonlinear and Inelastic Dynamic Analysis
- Introduction
- Single Degree of Freedom System
- Numerical Methods
- Multiple Degrees of Freedom System
- Equivalent Linearization
- Problems
- 5. Behavior of Structures under Seismic Excitation
- Introduction
- Relationship between Force Reduction and Ductility Demand
- Relationship between Global Ductility and Local Ductility
- Local Ductility Capacity
- Evaluation of Monotonic Local Ductility Capacity
- Evaluation of Cyclic Local Ductility Capacity
- Precast Concrete Structures
- Effect of Structure Configuration on Ductility
- Second-Order Effect on Ductility
- Undesirable Hysteretic Behavior
- Effect of Axial Load on Hysteretic Behavior
- Design Considerations
- Capacity Design
- Pushover Analysis
- Recommended versus Undesirable Structural Systems
- Strain Rate
- Problems
- 6. Design of Earthquake-Resistant Buildings (IBC)
- Introduction
- Definition of Structural Components
- Seismic Design Category
- Zoning Classification
- Response Spectra
- Design Requirements of Seismic Design Categories
- Earthquake-Induced Forces
- Load Combinations
- Definitions and Requirements of Structural Systems
- Special Topics
- Problems
- APPENDIX 6-1
- 7. Seismic Provisions of Reinforced Concrete Structures (ACI 318)
- Introduction
- Ordinary Moment Frames
- Intermediate Moment Frames
- Special Moment Frames
- Ordinary Shear Walls
- Special Shear Walls
- Coupling Beams
- Diaphragms and Trusses
- Foundations
- Precast Concrete
- Nonseismic-Resisting Systems
- APPENDIX 7-1
- 8. Introduction to AISC Seismic Provisions for Structural Steel Buildings
- Introduction
- General Requirements
- Structural Systems
- Allowable Stress Design Approach
- APPENDIX 8-1
- 9. Design of Earthquake-Resistant Bridges (AASHTO Code)
- Introduction
- AASHTO Procedures for Bridge Design
- Response Spectra
- Single-Span Bridges
- Bridges in Seismic Zone 1
- Bridges in Seismic Zone 2
- Bridges in Seismic Zones 3 and 4
- Methods of Analysis
- Load Combinations
- Design Requirements
- Design Requirements of Reinforced Concrete Beam-Columns
- Design Requirements of Reinforced Concrete Pier Walls
- Special Topics
- APPENDIX 9-1
- 10. Geotechnical Aspects and Foundations
- Introduction
- Wave Propagation
- Ground Response
- Liquefaction
- Slope Stability
- Lateral Earth Pressure
- Foundations
- APPENDIX 10-1
- 11. Synthetic Earthquakes
- Introduction
- Fourier Transform
- Power Spectral Density
- Stationary Random Processes
- Random Ground Motion Model
- Implementation of Ground Motion Model
- Validity of Synthetic Earthquakes
- 12. Seismic Isolation
- Introduction
- Concept of Seismic Isolation
- Lead-Rubber Bearing Isolators
- Analysis of Seismically Isolated Structures
- Design of Seismically Isolated Structures
- APPENDIX 12-1
- A. Bibliography
- Chapter 1
- Chapter 2
- Chapter 3
- Chapter 4
- Chapter 5
- Chapter 6
- Chapter 7
- Chapter 8
- Chapter 9
- Chapter 10
- Chapter 11
- Chapter 12.