Reinforced Concrete With Frp Bars Mechanics And Design
Authors: Antonio Nanni / Antonio De Luca / Hany Jawaheri Zadeh
Pages: 406
Language: English
Format: PDF
Size: 38.50 MB
Civil Books
Contents
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Authors: Antonio Nanni / Antonio De Luca / Hany Jawaheri Zadeh
Pages: 406
Language: English
Format: PDF
Size: 38.50 MB
Civil Books
Contents
Code:
- Materials And Test Methods
- Introduction
- Background
- FRP Reinforcement
- FRP Reinforced Concrete
- Acceptance By Building Officials
- Premise On Code Adoption
- The Role Of Acceptance Criteria From ICCES
- Applications
- References
- Material Properties
- Introduction
- FRP Bar
- Reinforced Concrete With Frp Bars
- Reinforced Concrete With Frp Bars Mechanics And Design
- Reinforced Concrete With Frp Bars Mechanics And Design Pdf
- Flexural Response Of Concrete Beams Reinforced With Frp Reinforcing Bars
- Shear Capacity Of High-Strength Concrete Beams Reinforced With Frp Bars
- How To Reinforce Concrete With Rebar
- Fiber Reinforced Concrete Vs Rebar
- Does Fiber Concrete Need Rebar
- How Strong Is Fiber Reinforced Concrete
- What Is Fiber Reinforced Concrete
- Types Of Fiber Reinforced Concrete
- Frp Reinforcing Bars In Concrete
- Constituent Materials: Fibers And Resin Matrices
- Fibers
- Glass Fiber
- Carbon Fiber
- Aramid Fiber
- Basalt Fiber
- Matrices
- Epoxies
- Polyesters
- Vinyl Esters
- Manufacturing By Pultrusion
- Gel Time And Peak Exothermic Temperature
- References
- FRP Bar Properties
- Physical And Mechanical Properties Of FRP Bars
- Test Methods
- ASTM Test Methods
- ACI Test Methods
- Product Certification And Quality Assurance
- Constituent Materials
- Bar Size
- Mechanical Properties
- Durability Properties
- Bent Bars
- Performance Of FRP RC Under Fire Conditions
- References
- Analysis And Design
- Frp Reinforcing Bars
- Frp Reinforced Concrete
- Frp Reinforced Concrete Design
- Objectives Of Fiber Reinforced Concrete
- What Is Polypropylene Fiber Reinforced Concrete
- Reinforced Concrete Rebar Ratio
- Best Concrete
- Reinforced Concrete Without Rebar
- Reinforced Concrete With Fiberglass
- Frp Reinforcement For Concrete Structures
- Reinforced Concrete Slab
- Steel Fiber Reinforced Concrete Vs Rebar
- Reinforced Concrete With Frp Bars
- Frp Reinforcing Bars In Concrete
- Frp Reinforced Concrete
- Frp Reinforcing Bars
- Can Frp Be Used Outside
- Flexural Members
- Notation
- Introduction
- Structural Analysis
- Loading Conditions For Ultimate
- And Serviceability Limit States
- Concrete Properties
- Cross Sectional Properties
- Initial Member Proportioning
- FRP Design Properties
- Bending Moment Capacity
- Failure Mode And Flexural Capacity
- Nominal Bending Moment Capacity
- Bond Critical Sections
- Minimum FRP Reinforcement
- Maximum FRP Reinforcement
- Examples—Flexural Strength
- Strength Reduction Factors For Flexure
- ACI R Approach
- New Approach
- Examples—Flexural Strength Reduction Factor
- Does Reinforced Concrete Crack
- Reinforced Concrete Without Rebar
- Frp Reinforcement For Concrete Structures
- What Is Frp Used For In Construction
- What Is Frp Rebar
- Why Is Concrete Reinforced With Steel
- Reinforced Concrete With Frp Bars
- Reinforced Concrete With Frp Bars Mechanics And Design
- Reinforced Concrete With Frp Bars Mechanics And Design Pdf
- How To Reinforce Concrete With Rebar
- Fiber Reinforced Concrete Vs Rebar
- Anchorage And Development Length
- Special Considerations
- Multiple Layers Of Reinforcement
- Redistribution Of Moments
- Compression FRP In Flexural Members
- Serviceability
- Control Of Crack Width
- Control Of Deflections
- Elastic Immediate Deflections
- One Way Slabs And Beams
- Elastic Immediate Deflections
- According To Bischoff
- Two Way Slabs
- Concrete Creep Effects On
- Deflections Under Sustained Load
- FRP Creep Rupture And Fatigue
- Shear Capacity
- Concrete Contribution
- Shear Reinforcement Contribution
- Strength Reduction Factor For Shear
- Examples—One Way Shear Strength
- Examples—Two Way Shear Strength
- Shear Friction
- Shear Stresses Due To Torsion
- Temperature And Shrinkage Reinforcement
- Safety Fire Checks For Bending Moment Capacity
- References
- Members Subjected To Combined Axial Load And
- Bending Moment
- Notation
- Introduction
- FRP Bars As Compression Reinforcement
- Overall Design Limitations For FRP RC Columns
- Reinforced Concrete Columns Subjected To Axial Load
- FRP RC Columns
- Design Recommendations For FRP RC Columns
- Minimum Longitudinal Reinforcement
- Equivalency Under Compression Between
- GFRP And Concrete
- Limit On Maximum Tensile Strain In GFRP
- Limit On Maximum Spacing Of
- Transverse Reinforcement
- Modified Column Stiffness
- Slenderness Effects
- Bending Moment And Axial Force
- Interaction Diagram For Rectangular Cross Section
- Interaction Diagram For Circular Cross Section
- Example—P–M Diagram
- Strength Reduction Factor For Combined
- Bending Moment And Axial Force
- Columns Subjected To Axial Load And Biaxial Bending
- Shear Strength
- Concrete Contribution For Rectangular Sections
- Shear Reinforcement Contribution,
- Rectangular Sections
- Shear Strength Reduction Factor
- Circular Sections
- Example—Shear Strength For Circular Columns
- Shear Walls
- Examples—Shear Wall Strength And Shear Friction
- Design Examples
- Design Of A One Way Slab
- Introduction
- Design Summary
- Step —Define Slab Geometry And Concrete Properties
- Geometry
- Concrete Properties
- Reinforced Concrete Rebar Ratio
- How Strong Is Fiber Reinforced Concrete
- What Is Fiber Reinforced Concrete
- Frp Reinforcing Bars In Concrete
- Frp Reinforcing Bars
- Frp Reinforced Concrete
- Frp Reinforced Concrete Design
- Is Fiber In Concrete Better Than Rebar
- Steel Fiber Reinforced Concrete Vs Rebar
- Does Fiber Concrete Need Rebar
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