Reinforced Concrete with FRP Bars (inbunden)
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Format
Inbunden (Hardback)
Språk
Engelska
Antal sidor
418
Utgivningsdatum
2010-03-01
Förlag
CRC Press
Illustratör/Fotograf
N, black and white 151 Illustrations A 35 Tables black and white
Illustrationer
N/A; 35 Tables, black and white; 151 Illustrations, black and white
Dimensioner
234 x 157 x 28 mm
Vikt
704 g
Antal komponenter
1
ISBN
9780415778824
Reinforced Concrete with FRP Bars (inbunden)

Reinforced Concrete with FRP Bars

Mechanics and Design

Inbunden Engelska, 2010-03-01
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Corrosion-resistant, electromagnetic transparent and lightweight fiber-reinforced polymers (FRPs) are accepted as valid alternatives to steel in concrete reinforcement. Reinforced Concrete with FRP Bars: Mechanics and Design, a technical guide based on the authors' more than 30 years of collective experience, provides principles, algorithms, and practical examples. Well-illustrated with case studies on flexural and column-type members, the book covers internal, non-prestressed FRP reinforcement. It assumes some familiarity with reinforced concrete, and excludes prestressing and near-surface mounted reinforcement applications. The text discusses FRP materials properties, and addresses testing and quality control, durability, and serviceability. It provides a historical overview, and emphasizes the ACI technical literature along with other research worldwide. Includes an explanation of the key physical mechanical properties of FRP bars and their production methods Provides algorithms that govern design and detailing, including a new formulation for the use of FRP bars in columns Offers a justification for the development of strength reduction factors based on reliability considerations Uses a two -story building solved in Mathcad (R) that can become a template for real projects This book is mainly intended for practitioners and focuses on the fundamentals of performance and design of concrete members with FRP reinforcement and reinforcement detailing. Graduate students and researchers can use it as a valuable resource. Antonio Nanni is a professor at the University of Miami and the University of Naples Federico II. Antonio De Luca and Hany Zadeh are consultant design engineers.
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"... a comprehensive reference... Each design example shows step-by-step approaches..." -Civil Engineering Journal, October 2015 "This book is a must-have for the shelf of any student, educator or practitioner in any part of the world. Tony Nanni is one of the world's greatest pioneers in this field, and this book encapsulates his wealth of experience in an accessible format. Understand this book, and you understand how to design better, innovative and more durable concrete structures." -Professor Tim Ibell FREng, University of Bath, UK

Övrig information

Antonio Nanni is the Lester and Gwen Fisher Endowed Scholar, Professor and Chair at the Department of Civil, Architectural, and Environmental Engineering at the University of Miami, and Professor in the Department of Structural Engineering of the University of Naples "Federico II". Fabio Matta is a Research Assistant Professor at the Department of Civil, Architectural, and Environmental Engineering at the University of Miami, and Associate Director of the NSF Industry/University Cooperative Research Center for "Repair of Buildings and Bridges with Composites". Renato Parretti is Professor of Concrete Structures at the University of Naples "Parthenope".

Innehållsförteckning

PART I Materials and test methods Introduction Background FRP reinforcement FRP reinforced concrete Acceptance by building officials Applications References Material properties Introduction FRP bar Constituent materials: Fibers and resin matrices Manufacturing by pultrusion References FRP bar properties Physical and mechanical properties of FRP bars Test methods Product certification and quality assurance Performance of FRP RC under fire conditions References PART II Analysis and design Flexural members Notation Introduction Structural analysis Initial member proportioning FRP design properties Bending moment capacity Strength-reduction factors for flexure Anchorage and development length Special considerations Serviceability Shear capacity 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 Design recommendations for FRP RC columns Bending moment and axial force Strength-reduction factor for combined bending moment and axial force Columns subjected to axial load and biaxial bending Shear strength, Vn References PART III Design examples Design of a one-way slab Introduction Design summary Step 1-Define slab geometry and concrete properties Step 2-Compute the factored loads Step 3-Compute bending moments and shear forces Step 4-Design FRP primary reinforcement Step 5-Check creep-rupture stress Step 6-Check crack width Step 7-Check maximum midspan deflection Step 8-Check shear capacity Step 9-Design the FRP reinforcement for shrinkage and temperature Step 10-Fire safety check for flexural strength per Nigro et al References Design of a T-beam Introduction Design summary Step 1-Define beam geometry and concrete properties Step 2 -Compute factored loads Step 3 -Compute bending moments and shear forces Step 4-Design FRP primary reinforcement for bending moment capacity Step 5-Check creep-rupture stress Step 6 -Check crack width Step 7-Check maximum midspan deflection Step 8-Design FRP reinforcement for shear capacity Step 9-Compute FRP contribution to torsional strength References Design of a two-way slab Introduction Design summary Step 1-Define slab geometry and concrete properties Step 2-Compute the factored loads Step 3-Compute bending moments and shear forces Step 4-Design FRP reinforcement for bending moment capacity Step 5-Check creep-rupture stress Step 6-Check crack width Step 7-Check deflections Step 8-Check for punching shear (no perimeter beams) Reference Design of a column Introduction Design summary Step 1-Define column geometry and concrete properties Step 2-Compute ultimate loads Step 3-Design longitudinal FRP reinforcement Step 4-Design FRP shear reinforcement Step 5-Check creep-rupture stress Design of square footing for a single column Introduction Design summary Step 1-Define concrete properties Step 2-Compute service axial loads and bending moments Step 3-Preliminary analysis Step 4-Design FRP reinforcement for bending moment capacity Step 5-Check creep-rupture stress Step 6-Check crack width Step 7-Recheck shear strength Reference Index