Reinforced Concrete - Calculation, Tables, Examples - Benno Loser

A Comprehensive Guide to Reinforced Concrete Design

Reinforced concrete is a versatile and widely used construction material, combining the strength of concrete with the flexibility of steel reinforcement. This book provides a comprehensive guide to the calculation, design, and detailing of reinforced concrete structures, making it an essential resource for engineers, architects, and students alike.

Key Features:

Comprehensive Coverage: Covers all aspects of reinforced concrete design, from material properties and structural analysis to detailing and construction practices.
Practical Approach: Provides practical examples and step-by-step calculations to illustrate the application of theoretical concepts.
Tables and Charts: Includes extensive tables and charts for quick reference and easy design calculations.
Up-to-Date: Incorporates the latest codes and standards, ensuring compliance with current industry practices.

Chapter Summaries:

Chapter 1: Introduction

Provides an overview of reinforced concrete and its advantages over other construction materials.
Discusses the historical development of reinforced concrete and its role in modern construction.

Chapter 2: Material Properties

Presents the properties of concrete and steel, including strength, elasticity, and durability.
Explains the behavior of concrete under various loading conditions and the effects of temperature and moisture.

Chapter 3: Structural Analysis

Introduces the principles of structural analysis for reinforced concrete structures.
Covers topics such as bending, shear, torsion, and deflection.
Provides methods for calculating internal forces and moments in reinforced concrete members.

Chapter 4: Design of Reinforced Concrete Elements

Presents the design principles for reinforced concrete beams, columns, slabs, and footings.
Includes detailed calculations and design examples for each element type.
Discusses the effects of reinforcement ratios, concrete strength, and span lengths on the design of reinforced concrete elements.

Chapter 5: Detailing and Construction Practices

Provides guidelines for detailing reinforced concrete structures, including bar spacing, lap lengths, and anchorage requirements.
Discusses construction practices such as formwork, concrete placement, and curing.
Highlights the importance of quality control and inspection during construction.

Chapter 6: Codes and Standards

Summarizes the key provisions of major reinforced concrete codes and standards, including ACI 318, Eurocode 2, and CSA A23.3.
Explains the differences between these codes and their implications for reinforced concrete design.

Why You Should Buy This Book:

Comprehensive and Practical: This book provides a comprehensive and practical guide to reinforced concrete design, making it an invaluable resource for engineers, architects, and students.
Up-to-Date: Incorporates the latest codes and standards, ensuring compliance with current industry practices.
Easy to Use: Includes extensive tables and charts for quick reference and easy design calculations.
Real-World Examples: Provides practical examples and step-by-step calculations to illustrate the application of theoretical concepts.
Authoritative: Written by a renowned expert in reinforced concrete design, ensuring the accuracy and reliability of the information provided.

Conclusion:

Reinforced Concrete - Calculation, Tables, Examples by Benno Loser is a must-have resource for anyone involved in the design and construction of reinforced concrete structures. Its comprehensive coverage, practical approach, and up-to-date content make it an essential tool for engineers, architects, and students alike.