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Full Description
The use of fiber-reinforced polymer (FRP) composites in infrastructure systems has grown considerably in recent years because of the durability of composite materials. New constituent materials, manufacturing techniques, design approaches, and construction methods are being developed and introduced in practice by the FRP composites community to cost-effectively build FRP structural systems. FRP Composite Structures: Theory, Fundamentals, and Design brings clarity to the analysis and design of these FRP composite structural systems to advance the field implementation of structural systems with enhanced durability and reduced maintenance costs. It develops simplified mathematical models representing the behavior of beams and plates under static loads, after introducing generalized Hooke's Law for materials with anisotropic, orthotropic, transversely isotropic, and isotropic properties. Subsequently, the simplified models coupled with design methods including FRP composite material degradation factors are introduced by solving a wide range of practical design problems. This book:
Explores practical and novel infrastructure designs and implementations
Uses contemporary codes recently approved
Includes FRP case studies from around the world
Ensures readers fully understand the basic mechanics of composite materials before involving large-scale number crunching
Details several advanced topics including aging of FRPs, typical failures of structures including joints, and design simplifications without loss of accuracy and emphasis on failure modes
Features end of chapter problems and solved examples throughout.
This textbook is aimed at advanced undergraduate and graduate students and industry professionals focused on the analysis and design of FRP composite structural members. It features PowerPoint lecture slides and a solutions manual for adopting professors.
Contents
Chapter 1 Introduction Chapter 2 Engineering Properties of Composite Materials Chapter 3 Mechanics of FRP Composite Lamina Chapter 4 Mechanics of FRP Composite Laminates Chapter 5 Analysis of FRP Composite Beams Chapter 6 Analysis of FRP Composite Plates Chapter 7 Design Philosophy and Basis of FRP Composite Structural Members Chapter 8 Design of Pultruded FRP Axial Tension Members Chapter 9 Flexural Member Design Chapter 10 Design of Pultruded FRP Axial Compression Members Chapter 11 Design of Connections for FRP Members Chapter 12 Design of Combined Loads for FRP Members
