# Reinforced Concrete: A Fundamental Approach

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April 2008

## Beschreibung

### Beschreibung

For one-semester, junior/senior-level and graduate courses in Reinforced Concrete in the department of civil engineering.Now reflecting the new 2008 ACI 318-08 Code and the new International Building Code (IBC-2006), the Sixth Edition of this cutting-edge text has been extensively revised to present state-of-the-art developments in reinforced concrete. It analyzes the design of reinforced concrete members through a unique and practical step-by-step trial and adjustment procedure. The narrative is supplemented with flowcharts to guide students logically through the learning process. Ample photographs of instructional testing of concrete members decreases the need for actual laboratory testing.

### Inhaltsverzeichnis

PREFACE1 INTRODUCTION

1.1 Historical Development of Structural Concrete

1.2 Basic Hypothesis of Reinforced Concrete

1.3 Analysis versus Design of Sections

2 CONCRETE-PRODUCING MATERIALS

2.1 Introduction

2.2 Portland Cement

2.3 Water and Air

2.4 Aggregates

2.5 Admixtures

Selected References

3 CONCRETE

3.1 Introduction

3.2 Proportioning Theory—Normal Strength Concrete

3.3 High-Strength High-Performance Concrete Mixtures Design

3.4 PCA Method of Mixture Design

3.5 Estimating Compressive Strength of a Trial Mixture Using the Specified

Compressive Strength

3.6 Mixture Designs for Nuclear-Shielding Concrete

3.7 Quality Tests on Concrete

3.8 Placing and Curing of Concrete

3.9 Properties of Hardened Concrete

3.10 High-Strength Concrete

Selected References

Problems for Solution

4 REINFORCED CONCRETE

4.1 Introduction

4.2 Types and Properties of Steel Reinforcement

4.3 Bar Spacing and Concrete Cover for Steel Reinforcement

4.4 Concrete Structural Systems

4.5 Reliability and Structural Safety of Concrete Components

4.6 ACI Load Factors and Safety Margins

4.7 Design Strength versus Nominal Strength: Strength Reduction Factor

4.8 Quality Control and Quality Assurance

Selected References

5 FLEXURE IN BEAMS

5.1 Introduction

5.2 The Equivalent Rectangular Block

5.3 Strain Limits Method for Analysis and Design

5.4 Analysis of Singly Reinforced Rectangular Beams for Flexure

5.5 Trial-and-Adjustment Procedures for the Design of Singly Reinforced Beams

5.6 One-Way Slabs

5.7 Doubly Reinforced Sections

5.8 Nonrectangular Sections

5.9 Analysis of T and L Beams

5.10 Trial-and-Adjustment Procedure for the Design of Flanged Sections

5.11 Concrete Joist Construction

5.12 SI Expressions and Example for Flexural Design of Beams

Selected References

Problems for Solution

6 SHEAR AND DIAGONAL TENSION IN BEAMS

6.1 Introduction

6.2 Behavior of Homogeneous Beams

6.3 Behavior of Reinforced Concrete Beams as Nonhomogeneous Sections

6.4 Reinforced Concrete Beams without Diagonal Tension Reinforcement

6.5 Diagonal Tension Analysis of Slender and Intermediate Beams

6.6 Web Steel Planar Truss Analogy

6.7 Web Reinforcement Design Procedure for Shear

6.8 Examples of the Design of Web Steel for Shear

6.9 Deep Beams: Non-Linear Approach

6.10 Brackets or Corbels

6.11 Strut and Tie Model Analysis and Design of Concrete Elements

6.12 SI Design Expressions and Example for Shear Design

Selected References

Problems for Solution

7 TORSION

7.1 Introduction

7.2 Pure Torsion in Plain Concrete Elements

7.3 Torsion in Reinforced Concrete Elements

7.4 Shear-Torsion-Bending Interaction

7.5 ACI Design of Reinforced Concrete Beams Subjected to Combined Torsion, Bending,

and Shear

7.6 SI Metric Torsion Expressions and Example for Torsion Design

Selected References

Problems for Solution

8 SERVICEABILITY OF BEAMS AND ONE-WAY SLABS

8.1 Introduction

8.2 Significance of Deflection Observation...

### Portrait

Dr. Edward G. Nawy is a distinguished professor in the Department of Civil and Environmental Engineering at Rutgers, The State University of New Jersey. He has been active in the ACI and PCI since 1959 and is internationally recognized for his extensive research work in the fields of reinforced and prestressed concrete, particularly in the areas of crack and deflection control. Dr. Nawy has published more than 175 papers in numerous technical journals worldwide. He is also the author of several books, including Prestressed Concrete: A Fundamental Approach, FifthEdition (2006), published by Prentice Hall; Fundamentals of High Performance Concrete, Second Edition (2001), published by John Wiley and Sons; and Concrete Construction Engineering Handbook, Second Edition (2008), published by Taylor and Francis/CRC Press. He has been the recipient of several major awards, including the Henry L. Kennedy Award of the ACI, the ACI Concrete Research Council Award, the ACI Design Practice Award, honorary membership of the ACI, honorary professorship with the Nanjing Institute of Technology, and the emeritus honorary membership of the Transportation Research Board Committee on Concrete. Dr. Nawy is a licensed Professional Engineer in the states of New York, New Jersey, Pennsylvania, California, and Florida, Evaluator for the Accreditation Board for Engineering and Technology (ABET), Chartered Civil Engineer overseas, and has been a consultant in forensic engineering throughout the United States.EAN: 9780135029329

ISBN: 0135029325

Untertitel: Sprache: Englisch.

Verlag: PRENTICE HALL

Erscheinungsdatum: April 2008

Seitenanzahl: 915 Seiten

Format: gebunden

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