Ch. 1: Fiber-Reinforced Composite Materials Ch. 2: Linear Elastic Stress-Strain Characteristics of Fiber-Reinforced Material Ch. 3: Prediction of Engineering Properties Using Micromechanics Ch. 4: The Plane-Stress Assumption Ch. 5: Plane-Stress Stress-Strain Relations in a Global Coordinate System Ch. 6: Classical Lamination Theory: The Kirchhoff Hypothesis Ch. 7: Classical Lamination Theory: Laminate Stiffness Matrix Ch. 8: Classical Lamination Theory: Additional Examples Ch. 9: Failure Theories for Fiber-Reinforced Materials: Maximum Stress Criterion Ch. 10: Failure Theories for Fiber-Reinforced Materials: The Tsai-Wu Criterion Ch. 11: Environmentally Induced Stresses in Laminates Ch. 12: Through-Thickness Laminate Strains Ch. 13: Introduction to Fiber-Reinforced Laminated Plates Ch. 14: Appendix: Manufacturing Composite Laminates