Rasheed, Hayder A.
Strengthening design of reinforced concrete with FRP / Hayder A. Rasheed. - Boca Raton, FL (USA) : CRC Press, 2015 - xv, 230 p. : il. ; 24 cm. - Composite materials .
Incluye bibliografía e indices
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
Establece el arte y la ciencia de fortalecer el diseño del hormigón reforzado con polímero reforzado con fibras (FRP) más allá de la naturaleza abstracta de las directrices de diseño de Canadá (ISIS 2001 Canadá), Europa (Grupo de Tareas FIB 9,3 2001), y Estados Unidos (ACI 440.2R-08).
9781482235586 (hardback)
CONCRETO REFORZADO
CIENCIA DE LOS MATERIALES
INGENIERÍA ESTRUCTURAL
624.1834 / R224s
Strengthening design of reinforced concrete with FRP / Hayder A. Rasheed. - Boca Raton, FL (USA) : CRC Press, 2015 - xv, 230 p. : il. ; 24 cm. - Composite materials .
Incluye bibliografía e indices
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
Establece el arte y la ciencia de fortalecer el diseño del hormigón reforzado con polímero reforzado con fibras (FRP) más allá de la naturaleza abstracta de las directrices de diseño de Canadá (ISIS 2001 Canadá), Europa (Grupo de Tareas FIB 9,3 2001), y Estados Unidos (ACI 440.2R-08).
9781482235586 (hardback)
CONCRETO REFORZADO
CIENCIA DE LOS MATERIALES
INGENIERÍA ESTRUCTURAL
624.1834 / R224s
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