Reinforced Concrete Design

10.

10.1.

10.1.1.

Behavior and Analysis

10.1.1.1.

Load Distribution

10.1.1.2.

Moment and Shear Diagrams

10.1.1.3.

Design as Wide Beam

10.1.2.

Minimum Thickness Requirements

10.1.2.1.

Deflection Control

10.1.2.2.

Code Provisions

10.1.3.

Reinforcement Design

10.1.3.1.

Main Reinforcement

10.1.3.2.

Distribution Reinforcement

10.1.3.3.

Temperature and Shrinkage Reinforcement

10.1.4.

Detailing Requirements

10.1.4.1.

10.1.4.2.

Cover Requirements

10.1.4.3.

Support Details

10.2.

Two-Way Slab Systems

10.2.1.

Types of Two-Way Systems

10.2.1.1.

10.2.1.2.

Flat Slabs with Drop Panels

10.2.1.3.

10.2.1.4.

Two-Way Slabs on Beams

10.2.2.

Load Distribution

10.2.2.1.

Tributary Areas

10.2.2.2.

10.2.3.

Analysis Methods

10.2.3.1.

Direct Design Method

10.2.3.1.1.

Limitations and Applicability

10.2.3.1.2.

Total Static Moment

10.2.3.1.3.

Moment Distribution

10.2.3.1.4.

Column and Middle Strip Design

10.2.3.2.

Equivalent Frame Method

10.2.3.2.1.

10.2.3.2.2.

Stiffness Calculations

10.2.3.2.3.

Analysis Procedures

10.2.3.3.

Finite Element Method

10.2.3.3.1.

Modeling Considerations

10.2.3.3.2.

Result Interpretation

10.3.

10.3.1.

10.3.1.1.

Critical Sections

10.3.1.2.

10.3.1.3.

Design Procedures

10.3.2.

Two-Way Shear (Punching Shear)

10.3.2.1.

Critical Perimeter

10.3.2.2.

Shear Stress Calculation

10.3.2.3.

Factors Affecting Punching Strength

10.3.2.4.

Shear Reinforcement

10.3.3.

Transfer of Unbalanced Moments

10.3.3.1.

Eccentric Shear Transfer

10.3.3.2.

Fraction by Flexure

10.3.3.3.

Fraction by Eccentricity of Shear

10.4.

Deflection Control in Slabs

10.4.1.

Minimum Thickness Requirements

10.4.2.

Deflection Calculations

10.4.3.

Long-Term Deflection

10.4.4.

Camber Considerations

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9. Column Design

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11. Foundation Design