Chapter 1 Introduction
1．1 General Concepts and Characteristics of Concrete Structures
1．2 Forms of Concrete Structure
1．3 Overview of Development and Engineering Application of Concrete Structures
1．4 Characteristics and Learning Methods of the Course
Review Questions

Chapter 2 Mechanical Properties of Concrete and Reinforcement
2．1 Concrete
2．1．1 Composition and Structure of Concrete
2．1．2 Deformation and Strength of Concrete under Uniaxial Stress State
2．1．3 Strength and Deformation of Concrete under Multiaxial Stress State
2．1．4 Shrinkage and Creep of Concrete
2．2 Reinforcements
2．2．1 Types and Properties of Steel Reinforcement
2．2．2 Strength and Deformation of Reinforcement
2．2．3 Cold Working of Reinforcement
2．2．4 Fatigue Characteristics of Reinforcement
2．2．5 Creep and Relaxation of Reinforcement
2．2．6 Properties Requirements of Reinforcement in Concrete Structures
2．3 Bond Stress between Reinforcement and Concrete
2．3．1 Bond Stress
2．3．2 Composition of Bond Force
2．3．3 Factors Affecting Bond Properties
2．3．4 Anchorage Length of Reinforcements
Review Questions

Chapter 3 Design Method of Concrete Structures
3．1 A Brief History of the Development of Building Structure Design Theory
3．1．1 Allowable Stress Design Method
3．1．2 Ultimate Strength Design Method
3．1．3 Limit States Design Method
3．1．4 Probability-Based Limit State Design Method
3．2 Actions and Action Effects on Structures and Their Statistical Analysis
3．2．1 Actions and Action Effects on Structures
3．2．2 Determination of Characteristic Value of Load
3．3 Resistance of Structures and Its Statistical Analysis
3．3．1 Uncertainty of Structural Resistance
3．3．2 Statistical Parameters and Probability Distributions of Structural Resistance
3．4 Calculation Method of Structural Reliability
3．4．1 Functional Requirements and Probability of Structure
3．4．2 Reliability Degree and Safety Class of Structure
3．4．3 Limit States of Structure
3．4．4 Performance Function of Structure
3．4．5 Reliability Index of Structure
3．4．6 Design Situations of Structure
3．5 Probability-Based Limit State Design Method
3．5．1 Direct Probability-Based Design Method
3．5．2 Probability-Based Limit State Design Method Expressed by Partial Safety Factors
Review Questions
Exercises
……

Chapter 4 Axial Load Capacity of Reinforced Concrete Members
Chapter 5 Analysis and Design of Reinforced Concrete Flexural Members
Chapter 6 Shear Capacity of Reinforced Concrete Beams
Chapter 7 Load Capacity of Eccentrically Loaded Members
Chapter 8 Torsion Capacity of Reinforced Concrete Members
Chapter 9 Cracks， DeformatIon and Durability of Reinforced Concrete Members
Chapter 10 Prestressed Concrete Members

Appendix
References