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ASCE 43 05 : 2005

ASCE 43 05 : 2005

Current

Current

The latest, up-to-date edition.

SEISMIC DESIGN CRITERIA FOR STRUCTURES, SYSTEMS, AND COMPONENTS IN NUCLEAR FACILITIES

Available format(s)

Hardcopy , PDF

Language(s)

English

Published date

01-01-2005

Publisher

American Society of Civil Engineers

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Hardcopy - English
PDF - English
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Foreword
Acknowledgments
Acronyms/Notation
Definitions
Standard
1.0 Introduction
2.0 Earthquake Ground Motion
3.0 Evaluation of Seismic Demand
4.0 Evaluation of Structural Capacity
5.0 Load Combinations and Acceptance Criteria for
    Structures
6.0 Ductile Detailing Requirements
7.0 Special Considerations
8.0 Equipment and Distribution Systems
9.0 Seismic Quality Provisions
Appendix A
A.0 Approximate Methods for Sliding and Rocking
    of an Unanchored Rigid Body
Appendix B
B.0 Commentary on and Examples of Approximate
    Methods for Sliding and Rocking of an
    Unanchored Rigid Body
Commentary
C1.0 Introduction
C2.0 Earthquake Ground Motion
C3.0 Evaluation of Seismic Demand
C4.0 Evaluation of Structural Capacity
C5.0 Load Combinations and Acceptance Criteria for
     Structures
C6.0 Ductile Detailing Requirements
C7.0 Special Considerations
C8.0 Equipment and Distribution Systems
C9.0 Seismic Quality Provisions
Appendixes
A.1 Rigid Body Rocking Definitions
B.1 Sliding Force-Displacement Diagram
B.2 Horizontal Design Response Spectra, Scaled to 1-g
    Horizontal Ground Acceleration
Commentary
C1.1 Relative Seismic Hazard at Selected West Coast and
     East/Central U.S Sites for 0.2-s Spectral Response
     Acceleration
C2.1 Seismic Hazard Curves Normalized by the Spectral
     Acceleration Value Corresponding to 10[-4] Annual
     Probability
C3.1 Cable Tray Damping as a Function of Input ZPA
C4.1 Strength of Shear Walls
C4.2 Plots of Constants A and B
C5.1 Idealized Design Response Spectra
C5.2 Idealized Load Deflection Curve
C5.3 F[mu] Development
C5.4 Typical Load-Deformation Curve and Limit States
C6.1 Idealized Slab/Wall Moment Frame
C6.2 Typical Joint Details
Appendixes
B.1 Comparison of Sliding Displacements, delta[s]
B.2 Computation of Sliding Displacements, delta[s], by
    Reserve Energy Approach
B.3 Rigid Body Rocking
B.4 Rigid Body Sliding
Commentary
C1.1 Representative Applications of the Graded Approach
C1.2 Nominal Factor of Safety, F[N1%]
C1.3 Nominal Factor of Safety, F[N10%]
C2.1 Probability Ratios, R[p], Corresponding to SDC 3, 4, and 5
C2.2 Design Factors, DF, Corresponding to Probability Ratio,
     R[p], of 4.0 (SDC-3 Case)
C2.3 Design Factors, DF, Corresponding to Probability Ratio,
     R[p], of 10.0 (SDC-4 and SDC-5 Cases)
C2.4 Design Factor Parameters
C2.5 Typical Normalized Spectral Acceleration Hazard Curve
     Values
C2.6 Comparison of Actually Achieved Performance
     Probabilities, P[F], versus Target Goals for Various
     Cases [Based on Seismic Acceptance Criteria Satisfying
     Eq.(C2-10(b))]
C2.7 Comparison of Actually Achieved Performance
     Probabilities, P[F], versus Target Goals
     for Various Cases [Based on Seismic Acceptance Criteria
     Satisfying Eq.(C2-10(a))]
C2.8 Ratios of Achieved to Target Performance Probabilities
C8.1 Typical Classification and Standards Used for
     Construction and Procurement of Mechanical and Electrical
     Equipment

Specifies criteria for seismic design of safety-related Structures, Systems, and Components (SSCs) in a broad spectrum of nuclear facilities.

DocumentType
Standard
ISBN
978-0-7844-7113-5
Pages
98
PublisherName
American Society of Civil Engineers
Status
Current

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