RCC notes for GATE (English)

RCC/Reinforcement Cement concrete notes for GATE (English)

RCC play a very important roles in our life

As you see only structures around as are made up of  cement concrete so it is very important for as to study the full and complete details of RCC because without RCC life is incomplete in this article you will be able to download the RCC notes for various competitive exams in PDF format

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In this pdf notes you will find the following contents

Content-

1. BASICS

Plain and Reinforced Concrete 

 Compressive Strength of Concrete in Structure 

Flexural Strength of Concrete (Modules of Rupture) 

Tensile Strength of Concrete 

Stress-Strain Curve of Concrete 

 Concrete Strain at Ultimate Strength 

 Design Stress-Strain Curve 

Shrinkage and Creep in Concrete 

Design Stress Strain Curve for Steel 

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2. DESIGN OF RCC STRUCTERES

Introduction 

What is Limit State Method 

 Characteristic Strength of Method 

Characteristic Load 

 Partial Safety of Factor 

Assumption Limit State of Collapse: Flexure 

Working Stress Method 

Deficiency in Working Stress Method 

 Permissible Stresses 

 Permissible Stresses in Concrete 

 Permissible Stress in Steel Reinforcement 

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3 .CONCRETE TECHNOLOGY

 Introduction 

Chemical Composition of Raw Materials 

 Type of Cements 

 Admixture 

 Different Type of Admixture 

Aggregates 

 Permissible Limits for Impurities in Water 

Concrete 

Methods of Proportional Concrete 

Water Cement Ratio 

4. REINFORCED SECTION

Balanced, Under-Reinforced And Over Reinforced Section 

Moment of Resistance Calculation 

 Doubly Reinforced Section 

Analysis Doubly of Reinforced Section 

 Moment of Resistance Doubly of Reinforced Section 

 Design of Doubly of Reinforced Section 

 Flanged Beam 

Effective Flange Width 

IS Code Specification 

 Design of Flanged Section 

Limit State of Collapse in Shear 

Diagonal Tension and Diagonal Compression

Mechanism of Shear Resistance 

 Shear Stress 

Design Shear Strength of Concrete in Beams 

 Shear Reinforcement in Beam 

 Minimum Shear Reinforcement 

 Design Steps 

 Bond and Anchorage 

Torsion 

 Effect of Torsional Moment 

5. BEAM COLUMN

 Design of Beam and Slab 

I.S 456 Provisions 

Control of Deflection 

 One-way Slab 

 Introduction 

 One-way and Two-way Slabs 

Code Requirements on Reinforcement and Detailing 

Column Subjected to Axial Compression and Uniaxial bending

(clause 39.5 )

 Column Subjected to Axial Compression and Biaxial bending 

(clause 39.6) 

Code Procedure for Design of biaxilly Loaded Columns 

 Depth of Foundation 

 Design Consideration 

 BASIC ELEMENT OF PRESTRESS CONCRETE

Losses in Priestess 

Loss of Prestress Due to Friction 

 Loss of Prestress Due Anchorage Slip 

 Loss of Prestress due to Creep of Concrete 

Loss due to Shrinkage of Concrete 

Loss of Prestress due to Relaxation of Steel 

 Deflection of Restressed Beam

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