1. | Chapter 1 Introduction to Composite Materials | 1.1 Classification and Characteristics of Composite Materials 1.2 Basic Terminology of Fiber-Reinfoced Composite Materials 1.3 Manufacturing of Composite Materials 1.4 Current and Potential Advantage of Composite Materials |
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2. | Chapter 2 Matrices and Tensors | 2.1 Matrix : Definitions 2.2 Matrix : Operations 2.3 Vectors and Tensors |
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3. | Chapter 3 Analysis of an Orthotropic Lamina | 3.1 Strain 3.2 Stress and Equilibrium 3.3 Stress-Strain Relations 3.4 Strain Energy 3.4 Stress-Strain Relations for an Orthotropic Lamina |
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4. | Chapter 4 Effective Elastic Moduli | 4.1 Introduction to Micromechanics 4.2 Hybrid Boigt-Reuss Model |
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5. | Chapter 5 Classical Lamination Theory | 5.1 Plate Constitutive Equations 5.2 Special Classes of Laminates |
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6. | Chapter 6 Analysis of Laminated Plates | 6.1 Equations of Motion 6.2 Bending of Laminated Plates |
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7. | Chapter 7 Failure Criteria for Composite Materials | 7.1 Failure Criteria for an Orthotropic Lamina 7.2 Strength Analysis of Laminates |
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8. | 실습 A Introduction to MSC/NASTRAN | A..1 평판 해석 A.2 원공을 갖는 평판 해석 A.3 2-Body 체결 모델 해석 |
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9. | 실습 B Introduction to Hypermesh | B.1 Hypermesh & Nastran Tutorial B.2 Automeshing & Topology Repair |
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10. | 실습 C Introduction to Aircrafts | C.1 Discovery : Extreme Machines Special-21st Century Flight C.2 A Century of Flight C.3 History of Flight |
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