Strengthening Design of Reinforced Concrete with FRP

Strengthening Design of Reinforced Concrete with FRP

by Hayder A. Rasheed

Hardcover

$160.00

Product Details

ISBN-13: 9781482235586
Publisher: Taylor & Francis
Publication date: 12/31/2014
Series: Composite Materials Series
Pages: 248
Product dimensions: 6.10(w) x 9.20(h) x 0.70(d)

About the Author

Hayder A. Rasheed is a professor and Thomas and Connie Paulson outstanding civil engineering faculty member at Kansas State University, Manhattan, USA. Previously, he was an assistant professor at Bradley University, Peoria, Illinois, USA. He holds a BS and MS from the University of Baghdad, Iraq, and a Ph.D from the University of Texas at Austin, USA. He is an ASCE fellow, registered professional engineer, author and co-author of 3 books and more than 50 refereed journal publications, and editorial board member of the International Journal of Structural Stability and Dynamics and the Open Journal of Composite Materials.

Table of Contents

Series Preface

Preface

Author

Introduction

Advancements in Composites

Infrastructure Upgrade

Behavior of Strengthened Reinforced Concrete Beams in Flexure

Behavior of Strengthened Reinforced Concrete Beams in Shear

Behavior of Reinforced Concrete Columns Wrapped with FRP

References

Background Knowledge

Overview

Flexural Design of RC Sections

Strain Compatibility

Force Equilibrium

Moment Equilibrium

Constitutive Relationships

Shear Design of RC Beams

Internal Reinforcement to Confine RC Columns

Service Load Calculations in Beams

References

Constituent Materials and Properties

Overview

Fibers

Matrix

Thermosetting Resins

Thermoplastic Resins

Fiber and Composite Forms

Engineering Constants of a Unidirectional Composite Lamina

FRP Sheet Engineering Constants from Constituent Properties

Determination of E1

Determination of E2

Determination of ν12

Determination of G12

Determination of ν21

Properties of FRP Composites (Tension)

Properties of FRP Composites (Compression)

Properties of FRP Composites (Density)

Properties of FRP Composites (Thermal Expansion)

Properties of FRP Composites (High Temperature)

Properties of FRP Composites (Long Term Effects)

References

Design Issues

Overview

Design Philosophy of ACI 440.2R-08

Strengthening Limits due to Loss of Composite Action

Fire Endurance

Overall Strength of Structures

Loading, Environmental, and Durability Factors in Selecting FRP

Creep-Rupture and Fatigue

Impact Resistance

Acidity and Alkalinity

Thermal Expansion

Electric Conductivity

Durability

References

Flexural Strengthening of Beams and Slabs

Overview

Strength Requirements

Strength Reduction Factors

Flexural Failure Modes

Ductile Crushing of Concrete

Brittle Crushing of Concrete

Rupture of FRP

Cover Delamination

FRP Debonding

References

Shear Strengthening of Concrete Members

Overview

Wrapping Schemes

Ultimate and Nominal Shear Strength

Determination of εfe

Reinforcement Limits

References

Strengthening of Columns for Confinement

Overview

Enhancement of Pure Axial Compression

Lam and Teng Model

Consideration of Rectangular Sections

Combined Confinement of FRP and Transverse Steel in Circular Sections

Combined Confinement of FRP and Transverse Steel in Rectangular Sections

3-D State of Stress Concrete Plasticity Model

Enhancement under Combined Axial Compression and Bending Moment

Interaction Diagrams for Circular Columns

Interaction Diagrams for Circular Columns using KDOT Column Expert

Interaction Diagrams for Rectangular Columns

Interaction Diagrams for Rectangular Columns Using KDOT Column Expert

References

Installation

Overview

Environmental Conditions

Surface Preparation and Repair

References

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