Seismic design of reinforced concrete buildings /

With an emphasis on the American Concrete Institute standards, this in-depth resource provides comprehensive coverage of the behavior, design, and construction requirements for earthquake-resistant concrete buildings.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Moehle, Jack P. (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York, N.Y. : McGraw-Hill Education, [2015]
Edición:First edition.
Colección:McGraw-Hill's AccessEngineering.
Temas:
Earthquake resistant design.
Concrete construction.
Reinforced concrete.
Electronic books.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • A. About the Author
  • B. Dedication
  • C. Preface
  • D. Acknowledgments
  • 1. Seismic Design and Performance Verification
  • Earthquake Resistance in Concrete Buildings
  • Early Developments
  • Current Practices
  • Building Performance
  • Performance Verification
  • The Purpose and Organization of This Book
  • References
  • 2. Steel Reinforcement
  • Preview
  • Steel Reinforcement Used in Buildings
  • Steel Reinforcement under Monotonic Loading
  • Reinforcing Bars under Cyclic Loading
  • References
  • 3. Concrete
  • Preview
  • Composition and Structure of Concrete
  • Concrete Strength
  • Behavior in Uniaxial Monotonic Loading
  • Behavior in Uniaxial Cyclic Loading
  • Behavior in Multi-axial Stress States
  • Fiber-Reinforced Concrete
  • Chapter Review
  • References
  • 4. Confined Concrete
  • Preview
  • Behavior of Confined Concrete Sections
  • Mechanism of Concrete Confinement
  • Analytical Modeling of Confined Concrete
  • References
  • 5. Axially Loaded Members
  • Preview
  • Some Observations on the Behavior of Compression Members
  • Analysis Assumptions for Compression Members
  • Service Load Behavior of Compression Members
  • Inelastic Behavior of Compression Members
  • Tension Members
  • Reversed Cyclic Loading
  • Chapter Review
  • References
  • 6. Moment and Axial Force
  • Preview
  • Some Observations about Flexural Behavior
  • Internal and External Force Equilibrium
  • Flexural Deformations
  • Flexural Behavior of Sections
  • Moment?Curvature Analysis
  • Beams
  • Columns
  • Walls
  • Flanged Sections
  • Load-Deflection Calculations
  • Reversed Cyclic Loading
  • References
  • 7. Shear in Beams, Columns, and Walls
  • Preview
  • Some Observations about Shear in Flexural Members
  • Relations among Moment, Shear, and Bond
  • Beam Action and Arch Action
  • Internal Forces in Members with Transverse Reinforcement
  • Strut-and-Tie Models
  • Proportioning of Strut-and-Tie Models
  • Transverse Reinforcement Detailing
  • Empirical Approach for Shear Strength of Beams and Columns
  • Effects of Inelastic Cyclic Loading
  • Diagonally Reinforced Beams
  • Shear in Structural Walls
  • Interface Shear Transfer
  • Shear Stiffness
  • References
  • 8. Development and Anchorage
  • Preview
  • Some Observations about Bond and Anchorage
  • Relations among Bond Stress and External Forces
  • Bond Mechanics
  • Bond Strength of Deformed Reinforcement
  • Lap Splices
  • Mechanical Splices
  • Welded Splices
  • Hooked Anchorages
  • Headed Reinforcement
  • Effects of Inelastic Cyclic Loading
  • References
  • 9. Beam-Column Connections
  • Preview
  • Forces in Beam-Column Connections
  • Joint Classifications
  • Beam-Column Joints without Transverse Reinforcement
  • Beam-Column Joints with Transverse Reinforcement
  • Recommended Design Procedure for Beam-Column Joints
  • Beam-Column Joint Deformations
  • References.
  • 10. Slab-Column and Slab-Wall Connections
  • Preview
  • Some Observations on Seismic Behavior of Slab-Column Connections
  • Slab-Column Systems
  • Moments, Shears, and Deformations in Slab-Column Framing
  • Flexural Reinforcement in Slab-Column Frames
  • Lateral Stiffness
  • Shear and Moment Transfer Strength at Slab-Column Connections
  • Drift Capacity under Deformation Reversals
  • Post-Punching Behavior and Structural Integrity Reinforcement
  • Slab-Wall Connections
  • References
  • 11. Seismic Design Overview
  • Preview
  • Earthquakes and Engineering Representation of Seismic Hazard
  • Earthquake Demands on Building Structures
  • Earthquake-Resisting Buildings
  • Design Approach
  • Chapter Review
  • References
  • 12. Special Moment Frames
  • Preview
  • The Use of Special Moment Frames
  • Principles for Design of Special Moment Frames
  • Seismic Response of Special Moment Frames
  • Modeling and Analysis
  • Proportioning and Detailing Guidance
  • Additional Requirements
  • Detailing and Constructability Issues
  • References
  • 13. Special Structural Walls
  • Preview
  • The Use of Special Structural Walls
  • Principles for Design of Special Structural Walls
  • Observations on the Behavior of Special Structural Walls
  • Analysis Guidance
  • Load and Resistance Factors for Wall Design
  • Preliminary Proportioning
  • Design of Slender Walls with Single Critical Section
  • Design of Walls without an Identified Critical Section
  • Squat Walls
  • Wall Piers
  • Coupled Wall Systems
  • Wall Panel Zones
  • Wall Transfer at Podium and Subterranean Levels
  • Outriggers
  • Geometric Discontinuities
  • Additional Requirements
  • Detailing and Constructability Issues
  • References
  • 14. Gravity Framing
  • Preview
  • The Use of Gravity Framing
  • Principles for Design of Gravity Framing
  • Analysis Guidance
  • Design Guidance
  • Additional Requirements
  • Detailing and Constructability Issues
  • References
  • 15. Diaphragms and Collectors
  • Preview
  • The Roles of Diaphragms
  • Diaphragm Components
  • Diaphragm Behavior and Design Principles
  • Analysis Guidance
  • Design Guidance
  • Additional Requirements
  • Detailing and Constructability Issues
  • References
  • 16. Foundations
  • Preview
  • Foundation Elements in Earthquake-Resisting Buildings
  • Soil?Structure Interaction
  • Geotechnical Investigation Report
  • Foundation Performance Objectives and Design Values
  • Spread Footings
  • Mat Foundations
  • Deep Foundations
  • Combined Footings and Outriggers to Increase Overturning Resistance
  • Buildings with Subterranean Levels
  • Basement Walls
  • References
  • A. Notation.

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