Reinforced Concrete - Calculation, Tables, Examples - Benno Loser
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.