Reinforced Concrete Design 2nd Version by Sunnikrishna Pillai and Devdas Menon | PDF Free Download.
Ebook Particulars : | |
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Language | English |
Pages | 882 |
Format | |
Dimension | 9.29 MB |
Reinforced Concrete Design 2nd Version by Pillai and Menon
Reinforced Concrete Design Contents
REINFORCED CONCRETE STRUCTURES
- Introduction
- Plain and Reinforced Concrete
- Goals of Structural Design
- Reinforced Concrete Building
- Structural Methods
- Reinforced Concrete Buildings
- Structural Evaluation and Design
- Design Codes and Handbooks
BASIC MATERIAL PROPERTIES
- Introduction
- Cement
- Mixture
- Water
- Admixtures
- Grade of Concrete
- Concrete Combine Design
- Behaviour of Concrete beneath Uniaxial Compression
- Behaviour of Concrete beneath Stress
- Behaviour of Concrete beneath Mixed Stresses
- Creep of Concrete
- Shrinkage and Temperature Results in Concrete
- Sturdiness of Concrete
- Reinforcing Metal
BASIC DESIGN CONCEPTS
- Introduction
- Working Stress Technique (WSM)
- Final Load Technique (ULM)
- Probabilistic Evaluation and Design
- Restrict States Technique (LSM)
- Code Suggestions for Restrict States Design
BEHAVIOUR IN FLEXURE
- Introduction
- Idea of Flexure for Homogeneous Supplies
- Linear Elastic Evaluation of Composite Sections
- Modular Ratio and Cracking Second
- Flexural Behaviour of Reinforced Concrete
- Evaluation at Service Masses (WSM(
- Evaluation at Final Restrict State
- Evaluation of Slabs as Rectangular Beams
DESIGN OF BEAMS AND ONE-WAY SLABS FOR FLEXURE
- Introduction
- Necessities of Flexural Reinforcement
- Necessities for Deflection Management
- Tips for Number of Member Sizes
- Design of Singly Reinforced Rectangular Sections
- Design of Steady One-Means Slabs
- Design of Doubly Reinforced Rectangular Sections
- Design of Flanged Beam Sections
- Curtailment of Flexural Stress Reinforcement
DESIGN FOR SHEAR
- Introduction
- Shear Stresses in Homogeneous Rectangular Beams
- Behaviour of Reinforced Concrete beneath Shear
- Nominal Shear Stress
- Vital Sections for Shear Design
- Design Shear Power with out Shear Reinforcement
- Design Shear Power with Shear Reinforcement
- Further Feedback on Shear Reinforcement Design
- Interface Shear and Shear Friction
- Shear Connectors in Flexural Members
- Shear Design Examples – Standard Technique
DESIGN FOR TORSION
- Introduction
- Equilibrium Torsion and Compatibility Torsion
- Normal Behaviour in Torsion
- Design Power in Torsion
- Evaluation and Design Examples
DESIGN FOR BOND
- Introduction
- Flexural Bond
- Anchorage (Improvement) Bond
- Bond Failure and Bond Power
- Assessment of Code Necessities for Bond
- Splicing of Reinforcement
- Design Examples
ANALYSIS FOR DESIGN MOMENTS IN CONTINUOUS SYSTEMS
- Introduction
- Gravity Load Patterns for Most Design Moments
- Simplified (Approximate) Strategies of Evaluation
- Proportioning of Member Sizes for Preliminary Design
- Estimation of Stiffnesses of Body Components
- Adjustment of Design Moments at Beam-Column Junctions
- Inelastic Evaluation and Second Redistribution
- Design Examples
SERVICEABILITY LIMIT STATES: DEFLECTION AND CRACKING
- Introduction
- Serviceability Restrict States: Deflection
- Quick-Time period Deflections
- Lengthy-Time period Deflection
- Serviceability Restrict State: Cracking
DESIGN OF TWO-WAY SLAB SYSTEMS
- Introduction
- Design of Wall-Supported Two-Means Slabs
- Design of Beam-Supported Two-Means Slabs
- Design of Column-Supported Slabs (with/with out Beams) beneath Gravity Masses
- Direct Design Technique
- Equal Body Technique
- Reinforcement Particulars in Column-Supported Two-Means Slabs
- Shear in Column-Supported Two-Means Slabs
- Design Examples of Column-Supported Two-Means Slabs
DESIGN OF STAIRCASES
- Introduction
- Sorts of Staircases
- Masses and Load Results on Stair Slabs
- Design Examples of Stair Slabs Spanning Transversely
- Design Examples of Stair Slabs Spanning Longitudinally
DESIGN OF COMPRESSION MEMBERS
- Introduction
- Estimation of Efficient Size of a Column
- Code Necessities on Slenderness Limits, Minimal Eccentricities and Reinforcement
- Design of Quick Columns beneath Axial Compression
- Design of Quick Columns beneath Compression with Uniaxial Bending
- Design of Quick Columns beneath Axial Compression with Biaxial Bending
- Design of Slender Columns
DESIGN OF FOOTINGS AND RETAINING WALLS
- Introduction
- Sorts of Footings
- Soil Pressures beneath Remoted Footings
- Normal Design Issues and Code Necessities
- Design Examples of Remoted and Wall Footings
- Design of Mixed Footings
- Sorts of Retaining Partitions and Their Behaviour 703
- Earth Pressures and Stability Necessities
- Proportioning and Design of Cantilever and Counterfort Partitions
GOOD DETAILING AND CONSTRUCTION PRACTICES
- Introduction
- Design and Detailing Practices
- Supplies and Building Practices
- Abstract
SPECIAL PROVISIONS FOR EARTHQUAKE-RESISTANT DESIGN
- Introduction
- Significance of Ductility in Seismic Design
- Main Design Issues
Reinforced Concrete Design PDF
Author(s): S Unnikrishna Pillai, Devdas Menon
Publisher: McGraw Hill Education, Year: 2017
ISBN: ISBN-10: 007014110X
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