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Engineering
Civil Engineering
Reinforced Concrete Design
1. Introduction to Reinforced Concrete
2. Materials and Properties
3. Design Philosophies and Building Codes
4. Flexural Analysis and Design of Beams
5. Shear and Torsion in Beams
6. Comprehensive Beam Design
7. Serviceability Requirements
8. Bond, Development, and Splicing
9. Column Design
10. Slab Design
11. Foundation Design
12. Retaining Wall Design
13. Advanced Topics
14. Detailing and Construction
Slab Design
One-Way Slabs
Behavior and Analysis
Load Distribution
Moment and Shear Diagrams
Design as Wide Beam
Minimum Thickness Requirements
Deflection Control
Code Provisions
Reinforcement Design
Main Reinforcement
Distribution Reinforcement
Temperature and Shrinkage Reinforcement
Detailing Requirements
Bar Spacing
Cover Requirements
Support Details
Two-Way Slab Systems
Types of Two-Way Systems
Flat Plates
Flat Slabs with Drop Panels
Waffle Slabs
Two-Way Slabs on Beams
Load Distribution
Tributary Areas
Load Paths
Analysis Methods
Direct Design Method
Limitations and Applicability
Total Static Moment
Moment Distribution
Column and Middle Strip Design
Equivalent Frame Method
Frame Modeling
Stiffness Calculations
Analysis Procedures
Finite Element Method
Modeling Considerations
Result Interpretation
Shear in Slabs
One-Way Shear
Critical Sections
Shear Strength
Design Procedures
Two-Way Shear (Punching Shear)
Critical Perimeter
Shear Stress Calculation
Factors Affecting Punching Strength
Shear Reinforcement
Transfer of Unbalanced Moments
Eccentric Shear Transfer
Fraction by Flexure
Fraction by Eccentricity of Shear
Deflection Control in Slabs
Minimum Thickness Requirements
Deflection Calculations
Long-Term Deflection
Camber Considerations
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9. Column Design
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11. Foundation Design