Preface
CHAPTER 1 Introduction
1.1 Development and features of reinforced concrete structure
1.2 Characteristics of this course
PART 1 MECHANICAL BEHAVIOR OF CONCRETE
CHAPTER 2 Basic MechanicaI Behavior
2.1 Material composition and characteristic
2.1.1 Composition and internal structure
2.1.2 Basic characteristics
2.1.3 General mechanism of failure process
2.2 Compressive strength
2.2.1 Cubic compressive strength
2.2.2 Failure process of prism specimen
2.2.3 Main indices of mechanical behavior
2.3 Complete compressive stress-strain curve
2.3.1 Testing method
2.3.2 Equation for complete curve
2.4 Tensile strength and deformation.
2.4.1 Testing method and index of tensile behavior
2.4.2 Tensile failure process and characteristic
2.4.3 Equation of complete stress--strain curve
2.5 Shear strength and deformation
2.5.1 Rational testing method
2.5.2 Failure characteristic and shear strength
2.5.3 Shear strain and modulus
CHAPTER 3 Behavior Under Influence 0f Main Factors
3.1 Load acted repeatedly
3.2 Eccentric compression
3.2.1 Testing methOd
3.2.2 Main experimental results
3.2.3 Stress-strain relation
3.3 Eccentric and flexural tensions
3.3.1 Failure process
3.3.2 Ultimate tensile strength and plasticity—dependent cocoefficient
3.3.3 The maximum tensile strain at ultimate load
3.3.4 Variations of strain and_~eutral axis of section
3.3.5 Equations for complete stress--strain curve
3.4 Age
3.4.1 Compressive strength
3.4.2 Modulus of elasticity
3.5 Shrinkage
3.5.1 Kind and quantity of cement
3.5.2 Property,size,and quantity of aggregate
3.5.3 Curing condition
3.5.4 Environmental condition of service stage
3.5.5 Shape and size of structural member
3.5.6 Other factors
3.6 Creep
3.6.1 Basic concept
3.6.2 Main influence factors
3.6.3 Calculation formulas
CHAPTER 4 Various StructuraI Concrete
4.1 High—strength concrete
4.1.1 Application and preparation
4.1.2 Basic mechanical behavior一
4.2 Light—weight concrete
4.2.1 Classification
4.2.2 Basic mechanical behavior
4.3 Fiber concrete
4.3.1 Classification.
4.3.2 Basic mechanical behavior
CHAPTER 5 Multiaxial Strength and Constitutive Relation.
5.1 Experimental equipment and method
5.2 General regularities of multiaxial strength and deformation.
5.2.1 Biaxial stress states
5.2.2Triaxial stress states
5.2.3 Different materials and loading paths
5.3 Typical failure pattems and their boundaries
5.3.1 Breaking in tension
5.3.2 Columnar crushing
5.3.3 Splitting into pieces
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PART 2 COMBINATION FUNCTION OF REINFORCEMENT AND CONCRETE
CHAPTER 6 MechanicaI Behavior of Reinforcement
CHAPTER 7 Bond Between Reinforcement and Concrete
CHAPTER 8 MechanicaI Behavior Under AxiaI Force
CHAPTER 9 Confined Concrete
CHAPTER 10 Mechanical Response of Deformation Difference
PART 3 STRENGTH AND DEFORMATION 0F STRUCTURAL MEMBER
CHAPTER 11 Strength of Member Under Compression and Bending.
CHAPTER 12 Tensile Crack.
CHAPTER 13 FlexuraI Stiffness and Deformation
CHAPTER 14 Strength of Member Under Shear Force
CHAPTER 15 Strength of Member Under Torsion
PART 4 SPECIAL BEHAVIORS OF STRUCTURAL MEMBERS
CHAPTER 16 Seismic Resistance
CHAPTER 17 Fatigue Resistance
CHAPTER 18 Explosion Resistance
CHAPTER 19 Fire Resistance
CHAPTER 20 Durability