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Reinforced Cement Concrete (RCC) Scanned Lecture Notes - Lakshana Edition
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Reinforced Cement Concrete (RCC) Full Hand Written Lecture Notes from Reputed Institutions and Faculties. Useful for Civil Engineers , Specially for Candidates Appearing for GATE Exams.

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Content :
Reinforced cement concrete
Concrete
Characteristic strength of concrete 
Use of characteristic strength 
Characteristic load
Young’s modulus of elasticity 
Different moduli of elasticity 
Effect of creep of Ec
Tensile strength of concrete 
Permissible stresses in concrete
Durability requirement of concrete 
Thermo mechanically treated bars
Singly reinforced 
Modular ratio 
Different types of sections
Moment of resistance 
Doubly reinforced section
T - beams and L- beams 
Analysis of T- beams
Limit state method of design 
Limit state of collapse
Limiting depth of NA
Comparison
1.Under reinforced section
2.Over reinforced section
Comparison of values 
T - beam
L – beam
Effective width of flange 
Isolated beam 
Slab T beam type 
Moment of resistance 
Design formula 
Doubly reinforced T - beam
Moment of resistance 
Shear 
Combined effect of bending and shear stress 
Design of shear 
Design of inclined shrups 
Minimum shear reinforcement 
Maximum spacing 
Design a beam only for shear 
Development length 
Use of development length 
Minimum shear reinforcement 
Maximum spacing of shear reinforcement 
Side face reinforcement 
Limit state method 
Equivalent shear force 
Equivalent method 
Design of slab/beam 
 Design of one way slab
Effective span 
Load calculation 
Rankine groshoff theory 
Pigeand’s method 
Torsion required for reinforcement    
Distribution bars 
Design of column
Load carrying capacity 
Effective length of column 
Design of transverse reinforcement 
Design of circular column
Design of ties 
Design of helical reinforcement 
Combined and direct ,bending stresses 
Design based on uncracked section 
Design based on cracked section 
Different cases 
Properties of interaction diagram 
Minimum eccentricity region
Compression control region 
Tension control region 
Design of column subjected to axial load and biaxial bending 
Design of long column 
Foundation 
Combined footing 
Strap footing 
Roft foundation 
Pile foundation 
Design of isolated rectangular footing 
Design steps 
Sloped footing 
Size of foundation 
Bending moment 
Design of sloped square footing 

Circular footing 
Stair case 
Design of longing slab
Effective height
Pre stressed concrete 
Definition types of pre stressed 
Casting of concrete 
Analysis 
Stress concept method 
Stresses in PSC beam at different stages of loading 
Strength concept method 
Losses 
Types of losses 
Loss of stress 
Average stress 
Design of pre stressed concrete members
Thermal pre stressing 

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