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Chapter 1: Why and What are Composites • Introduction • Definition
and Some Applications of Composites • Characteristics of Composite
Materials • Classification of Composites • References
Chapter 2: Fibers and Matrix Materials • Introduction • Fibers •
Matrix or Binding Material • Fillers • Summary • References
Chapter 3: Lamina Constitutive Equations • Introduction • Stiffness
Coefficients for 3D Composites • Stiffness Coefficients for 2D
Composites • Relations between Stiffness Coefficients and
Engineering Constants • Constitutive Relations for Generally
Orthotropic Lamina • Invariant Form of Stiffness and Compliance
Coefficients • Summary • Problems • References
Chapter 4: Analysis of Continuous Fibers Lamina for Strength and
Stiffness • Introduction • Volume and Weight Fractions • Modulus
and Strength of the Continuous Fiber Lamina • Hygrothermal Behavior
of Lamina • Strength and Failure of a Lamina • Summary • Problems •
References
Chapter 5: Strength of Fiber Reinforced Composite Lamina •
Introduction • Maximum Stress Failure Theory • Maximum Strain
Failure Theory • Interactive Failure Theories • Summary • Problems
• References
Chapter 6: Laminate Analysis • Introduction • Laminate Codes •
Formulation for Laminated Plates • Lamina Stresses and Strains •
Hygrothermal Effects on Laminate Stresses • Summary • Problems •
References
Chapter 7: Analysis for Strength of the Laminate • Introduction •
Load-deformation Curve for the Laminate • Stress/Load Analysis at
First Ply Failure • Summary • Problems • References
Chapter 8: Analysis of Composite Beams • Introduction • Governing
Equation for Laminated Beams • Governing Equation for Laminated
Composite Beams • Buckling of Sandwich Panels • Summary • Problems
• References
Chapter 9: Analysis of Composite Laminates • Introduction •
Classical Laminate Theory • Governing Equations for Laminated
Plates Subjected to Compressive In-plane Loads • Higher-order
Single Governing Equation • Governing Equations for Free Vibration
• Governing Equations Employing Higher Order Theories • Summary •
Problems • References
Chapter 10: Short Fiber Composites • Introduction • Analysis of
Aligned Short Fiber Composite • Improved Analysis for Aligned Short
Fiber Composites • Semi-empirical Relations for Prediction of
Modulus and Strength of Aligned Short Fiber Composites • Off-axis
Aligned Short Fiber Composites • Randomly Oriented Short Fiber
Composites • Aligned Ribbon Reinforced Composites • Summary •
References
Chapter 11: Optimization • Introduction • Summary • References
Chapter 12: Manufacturing Techniques for Composites • Introduction
• Fabrication Process for Thermosetting Polymer Composites •
Manufacturing Process for Thermoplastic Polymer Composites
Dr. N. G. R. Iyengar has been a professor since 1977 at the Indian Institute of Technology, Kanpur, India. He was awarded an M.E.(1965) from The Indian Institute of Science, Bangalore, India and Ph.D. (1971) from the Indian Institute of Technology, Kanpur, India and is a Fellow of the Indian National Academy of Engineering, Fellow of Institution of Engineers (India), Fellow of the Aeronautical Society of India and Life Member of Indian Society for Technical Education. After superannuation he joined the Jain University Bangalore in 2007 as Director, International Institute of Engineering and Management and Pro Vice Chancellor. Professor Iyengar has contributed to, among others, Journal of Aerospace Sciences and Technology, India, Fiber Science Technology, Journal of Sound & Vibration, Journal of Composite Structures, Journal of Structural Mechanics, Sadhana and International Journal of Mechanical Sciences and is a recipient of a number of awards.
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