Seismic Design of Precast/Prestressed Concrete Structures
Year of Publication: 2007
Number of Pages: 487
Published by: Precast/Prestressed Concrete Institute
Authors: Ned M. Cleland and S.K. Ghosh
First Edition
This manual provides current information on precast design within the context of the code requirements for seismic design, ongoing research, and the authors’ opinions about appropriate practice.
It must be emphasized that this manual, although sponsored by PCI, does not represent a consensus recommended practice. It represents opinions of the authors concerning some ways in which precast design may be carried out to conform to code requirements and to perform acceptably under seismic effects.
The methods and procedures discussed and illustrated are not a substitute for the sound professional judgment of engineers familiar with both earthquake effects and precast concrete construction. This manual will provide the engineer with acceptable ways of applying the seismic design provisions of ACI 318-02, ASCE 7-02, and IBC 2003 to precast concrete structures.
Contents: Chapter 1 – Introduction
Overview
Nature of Earthquake Motion
Design Philosophy
Seismic Design by the 2003 IBC
Evolution of Seismic Design Criteria
Response of Concrete Buildings to Seismic Forces
Seismic Design Requirements of the 2003 IBC
Impact of the 2003 IBC Seismic Design Provisions
Seismic Design Provisions for Precast Concrete Structures
References
Chapter 2 – Shear Wall Systems
Introduction
The Design Process for Precast Concrete shear Wall Systems
Four-Story Parking Garage Design Example
Chapter 3 – Seismic Design of Large-panel Precast Concrete Buildings
Introduction
Low-Rise Buildings with vertical Wall Panels
One-Story Warehouse Assigned to Seismic Design Category C
One-Story buildings Assigned to Seismic Design Category D
Multi-Story Large Panel Buildings
Mid-Rise Residential Building – Seismic Design Category C
Mid-Rise Residential Building – Seismic Design Category D (Emulative Design)
Mid-Rise Residential Building – Seismic Design Category D (Unbonded Post-Tensioned Design)
Alternate Design for Structures Assigned to High Seismic Design Categories Using Low-R-Factors and Elastic Design
Chapter 4 – Frame Design
Introduction
Frame Classifications for Seismic Considerations
Prototype Office Building for Design Examples
Ordinary Moment Frames
Special Moment Frames for Seismic Design Category C
Special Moment Frames for Seismic Design Category D, E, or F
Conclusion
References
Chapter 5 – Diaphragm Design in Precast-Prestressed Concrete Buildings
Introduction
Precast Floor Systems
Diaphragm Behavior
Diaphragm Connections
Diaphragm Design Forces
Diaphragm Rigidity or Flexibility
Low and Moderate Seismic Risk Design
High Seismic Risk Design
Advanced Diaphragm Design
Conclusion
Chapter 6 – Additional Design Considerations
Introduction
Seismic Detailing Considerations – Elements not Part of the Lateral-Force-Resisting System
Foundation Design
Soil Structure Interaction (SSI)
References
Chapter 7 – Advanced Systems
Seismic Research
Design Example – Five Story Precast Concrete Office Building in High seismic Design Category
Modified PRESSS Procedures (by Sritharan et al.)
Comparison of Design Results
References
Year of Publication: 2007
Number of Pages: 487
Published by: Precast/Prestressed Concrete Institute
Authors: Ned M. Cleland and S.K. Ghosh
First Edition
This manual provides current information on precast design within the context of the code requirements for seismic design, ongoing research, and the authors’ opinions about appropriate practice.
It must be emphasized that this manual, although sponsored by PCI, does not represent a consensus recommended practice. It represents opinions of the authors concerning some ways in which precast design may be carried out to conform to code requirements and to perform acceptably under seismic effects.
The methods and procedures discussed and illustrated are not a substitute for the sound professional judgment of engineers familiar with both earthquake effects and precast concrete construction. This manual will provide the engineer with acceptable ways of applying the seismic design provisions of ACI 318-02, ASCE 7-02, and IBC 2003 to precast concrete structures.
Contents: Chapter 1 – Introduction
Overview
Nature of Earthquake Motion
Design Philosophy
Seismic Design by the 2003 IBC
Evolution of Seismic Design Criteria
Response of Concrete Buildings to Seismic Forces
Seismic Design Requirements of the 2003 IBC
Impact of the 2003 IBC Seismic Design Provisions
Seismic Design Provisions for Precast Concrete Structures
References
Chapter 2 – Shear Wall Systems
Introduction
The Design Process for Precast Concrete shear Wall Systems
Four-Story Parking Garage Design Example
Chapter 3 – Seismic Design of Large-panel Precast Concrete Buildings
Introduction
Low-Rise Buildings with vertical Wall Panels
One-Story Warehouse Assigned to Seismic Design Category C
One-Story buildings Assigned to Seismic Design Category D
Multi-Story Large Panel Buildings
Mid-Rise Residential Building – Seismic Design Category C
Mid-Rise Residential Building – Seismic Design Category D (Emulative Design)
Mid-Rise Residential Building – Seismic Design Category D (Unbonded Post-Tensioned Design)
Alternate Design for Structures Assigned to High Seismic Design Categories Using Low-R-Factors and Elastic Design
Chapter 4 – Frame Design
Introduction
Frame Classifications for Seismic Considerations
Prototype Office Building for Design Examples
Ordinary Moment Frames
Special Moment Frames for Seismic Design Category C
Special Moment Frames for Seismic Design Category D, E, or F
Conclusion
References
Chapter 5 – Diaphragm Design in Precast-Prestressed Concrete Buildings
Introduction
Precast Floor Systems
Diaphragm Behavior
Diaphragm Connections
Diaphragm Design Forces
Diaphragm Rigidity or Flexibility
Low and Moderate Seismic Risk Design
High Seismic Risk Design
Advanced Diaphragm Design
Conclusion
Chapter 6 – Additional Design Considerations
Introduction
Seismic Detailing Considerations – Elements not Part of the Lateral-Force-Resisting System
Foundation Design
Soil Structure Interaction (SSI)
References
Chapter 7 – Advanced Systems
Seismic Research
Design Example – Five Story Precast Concrete Office Building in High seismic Design Category
Modified PRESSS Procedures (by Sritharan et al.)
Comparison of Design Results
References
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