Outline

Standard Specifications for Concrete Structures “Design” consists of General Requirements and Standard Methods.

Contents

GENERAL REQUIREMENTS
CHAPTER 1 GENERAL
1.1 Scope
1.2 Basic Rules of Design
1.3 Definitions
1.4 Notation
CHAPTER 2 PERFORMANCE REQUIREMENTS
2.1 General
2.2 Durability
2.3 Safety
2.4 Serviceability
2.5 Restorability
2.6 Environment
CHAPTER 3 STRUCTURAL PLANNING
3.1 General
3.2 Studies on Performance Requirements
3.3 Studies on Construction
3.4 Studies on Maintenance
3.5 Studies on Environmental Compatibility
3.6 Studies on Economical Aspects
CHAPTER 4 RULES FOR PERFORMANCE VERIFICATION
4.1 General
4.2 Prerequisite for Verification
4.3 Verification Method
4.4 Calculation of Response Values and Limit Values
4.5 Safety Factors
4.6 Modification Factors
4.7 Documentation of Design Calculations
4.8 Design Drawing
CHAPTER 5 DESIGN VALUES FOR MATERIALS
5.1 General
5.2 Concrete
5.3 Reinforcing Steel
CHAPTER 6 ACTION
6.1 General
6.2 Characteristic Values of Actions
6.3 Action Factors
6.4 Kind of Action
CHAPTER 7 CALCULATION OF RESPONSE VALUES
7.1 General
7.2 Modeling
7.3 Structural Analysis
7.4 Calculation of Design Response Values
CHAPTER 8 VERIFICATION OF DURABILITY
8.1 General
8.2 Verification Related to Steel Corrosion pdf
8.3 Verification Related to Concrete Deterioration
CHAPTER 9 VERIFICATION OF STRUCTURAL SAFETY
9.1 Genera
9.2 Examination for Load-carrying Capacity of Structure
9.3 Examination for Stability of Structure
9.4 Examination for Functional Safety
CHAPTER 10 VERIFICATION OF SERVICEABILITY
10.1 General
10.2 Limit Value of Stresses
10.3 Verification Related to Appearance
10.4 Examination for Vibration
10.5 Examination for Displacement and Deformation
10.6 Examination for Water-Tightness
10.7 Examination for Fire Resistance
CHAPTER 11 VERIFICATION OF RESTOREBILITY
11.1 General
11.2 Examination for Reparability to Influence of Earthquake
11.3 Examination for Reparability to Fire
11.4 Examination for Reparability to Collision
CHAPTER 12 VERIFICATION RELATED TO INITIAL CRACKING
12.1 General
12.2 Verification Related to Cracking Caused by Hydration of Cement
12.3 Verification Related to Cracking due to Shrinkage
CHAPTER 13 PREREQUISITE FOR REINFORCED CONCRETE
13.1 General
13.2 Concrete Cover
13.3 Clear Distance
13.4 Arrangement of Reinforcement
13.5 Bend Configurations of Reinforcement
13.6 Development of Reinforcement
13.7 Splices in Reinforcement
13.8 Reinforcement of Members

STANDARD METHODS
PART 1 STRUCTURAL ANALYSIS OF MEMBERS
1. General
2. Structural Analysis
3. Beams
4. Columns
5. Rigid Frames
6. Arches
7. Design of Planar Members
PART 2 VERIFICATION RELATED TO DURABILITY
1. General
2. Standard Method
3. Concrete Cover of Structure under Normal Environments
PART 3 VERIFICATION RELATED TO STRUCTURAL SAFTY
1. General
2. Examination Related to Failure of Cross Section
3. Examination Related to Fatigue Failure
PART 4 VERIFICATION RELATED TO SEVICEAVILITY
1. General
2. Examination Related to Appearance
3. Examination for Displacement and Deformation pdf
4. Examination for Fire Resistance
PART 5 SEISMIC DESIGN
1. General
2. Structural Planning
3. Seismic Performance
4. Seismic Motions for Verification
5. Analytical Models
6. Response Value
7. Verification for Seismic Performance
8. Verification using Nonlinear Spectra
9. Structural Details on Seismic Performance
PART 6 VERIFICATION FOR THERMAL CRACKS pdf
1. GENERAL
2. Verification Method
3. Thermal Analysis
4. Stress Analysis
5. Physical Property
PART 7 PREREQUISITE FOR REINFORCED CONCRETE AND STRACTURAL DETAILS
1. General
2. Prerequisite for Reinforced Concrete
3. Structural Details of Members
4. Other Structural Details
PART 8 PRESTRESSED CONCRETE
1. General
2. Classification of Prestressed Concrete
3. Prestressing Force
4. Calculation of Response Values
5. Verification of Durability
6. Verification of Safety
7. Verification of Serviceability
8. Verification of Seismic Performance
9. Verification during Construction
10. Structural Details
11. Precast Concrete
PART 9 VERIFICATION USING NONLINEAR FINITE ELEMENT ANALYSIS
1. General
2. Modeling of Materials
3. Calculation of Response Values
4. Verification
5. Validity Assessment
PART 10 STRUT-AND- TIE MODEL
1. General
2. Strength of Tie
3. Strength of Strut
4. Strength of Node and Anchorage of Reinforcing Bar