Equations of Anisotropic Elasticity, Virtual Work Principles, and Variational Methods
         Fiber-Reinforced Composite Materials
         Mathematical Preliminaries
         Equations of Anisotropic Entropy
         Virtual Work Principles
         Variational Methods
         Summary
         Introduction to Composite Materials
         Basic Concepts and Terminology
         Constitutive Equations of a Lamina
         Transformation of Stresses and Strains
         Plan Stress Constitutive Relations
         Classical and First-Order Theories of Laminated Composite Plates
         Introduction
         An Overview of Laminated Plate Theories
         The Classical Laminated Plate Theory
         The First-Order Laminated Plate Theory
         Laminate Stiffnesses for Selected Laminates
         One-Dimensional Analysis of Laminated Composite Plates
         Introduction
         Analysis of Laminated Beams Using CLPT
         Analysis of Laminated Beams Using FSDT
         Cylindrical Bending Using CLPT
         Cylindrical Bending Using FSDT
         Vibration Suppression in Beams
         Closing Remarks
         Analysis of Specially Orthotropic Laminates Using CLPT
         Introduction
         Bending of Simply Supported Rectangular Plates
         Bending of Plates with Two Opposite Edges Simply Supported
         Bending of Rectangular Plates with Various Boundary Conditions
         Buckling of Simply Supported Plates Under Compressive Loads
         Buckling of Rectangular Plates Under In-Plane Shear Load
         Vibration of Simply Supported Plates
         Buckling and Vibration of Plates with Two Parallel Edges Simply Supported
         Transient Analysis
         Closure
         Analytical Solutions of Rectangular Laminated Plates
         Using CLPT
         Governing Equations in Terms of Displacements
         Admissible Boundary Conditions for the Navier Solutions
         Navier Solutions of Antisymmetric Cross-Ply Laminates
         Navier Solutions of Antisymmetric Angle-Ply Laminates
         The Levy Solutions
         Analysis of Midplane Symmetric Laminates
         Transient Analysis
         Summary
         Analytical Solutions of Rectangular Laminated Plates Using FSDT
         Introduction
         Simply Supported Antisymmetric Cross-Ply Laminated Plates
         Simply Supported Antisymmetric Angle-Ply Laminated Plates
         Antisymmetric Cross-Ply Laminates with Two Opposite Edges Simply Supported
         Antisymmetric Angle-Ply Laminates with Two Opposite Edges Simply Supported
         Transient Solutions
         Vibration Control of Laminated Plates
         Summary
         Theory and Analysis of Laminated Shells
         Introduction
         Governing Equations
         Theory of Doubly-Curved Shell
         Vibration and Buckling of Cross-Ply Laminated Circular Cylindrical Shells
         Linear Finite Element Analysis of Composite Plates and Shells
         Introduction
         Finite Element Models of the Classical Plate Theory (CLPT)
         Finite Element Models of Shear Deformation Plate Theory (FSDT)
         Finite Element Analysis of Shells
         Summary
         Nonlinear Analysis of Composite Plates and Shells
         Introduction
         Classical Plate Theory
         First-Order Shear Deformation Plate Theory
         Time Approximation and the Newton-Raphson Method
         Numerical Examples of Plates
         Functionally Graded Plates
         Finite Element Models of Laminated Shell Theory
         Continuum Shell Finite Element
         Postbuckling Response and Progressive Failure of Composite Panels in Compression
         Closure
         Third-Order Theory of Laminated Composite Plates and Shells
         Introduction
         A Third-Order Plate Theory
         Higher-Order Laminate Stiffness Characteristics
         The Navier Solutions
         Levy Solutions of Cross-Ply Laminates
         Finite Element Model of Plates
         Equations of Motion of the Third-Order Theory of Doubly-Curved Shells
         Layerwise Theory and Variable Kinematic Model
         Introduction
         Development of the Theory
         Finite Element Model
         Variable Kinematic Formulations
         Application to Adaptive Structures
         Layerwise Theory of Cylindrical Shell
         Closure
         Subject Index
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