Page 13 - Mechanics Analysis Composite Materials
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X Cunrenrs
3.4.1. Longitudinal Tension 95
3.4.2. Transverse Tension 97
3.4.3. In-Plane Shear 100
3.4.4. Longitudinal Compression 103
3.4.5. Transverse Compression 1 13
3.5. Hybrid Composites 1 13
3.6. Phenomenological Homogeneous Model of a Ply 117
3.7. References 119
Chapter 4. Mechanics of a Composite Layer 121
4.1. Isotropic Layer 121
4.1.1. Linear Elastic Model 121
4.1.2. Nonlinear Models I24
4.2. Unidirectional Orthotropic Layer 140
4.2.1. Linear Elastic Model 140
4.2.2. Nonlinear Models 142
4.3. Unidirectional Anisotropic Layer 147
4.3.1. Linear Elastic Model 147
4.3.2. Nonlinear Models 161
4.4. Orthogonally Reinforced Orthotropic Layer 163
4.4.1. Linear Elastic Model 163
4.4.2. Nonlinear Models 166
4.5. Angle-Ply Orthotropic Layer 184
4.5.1. Linear Elastic Model 185
4.5.2. Nonlinear Models 188
4.5.3. Free-Edge Effects 201
4.6. Fabric Layers 205
4.7. Lattice Layer 2 I2
4.8. Spatially Reinforced Layers and Bulk Materials 214
4.9. References 222
Chapter 5. Mechanics of Laminates 225
5.1. Stiffness Coefficients of a Generalized Anisotropic Layer 225
5.2. Stiffness Coefficients of a Homogeneous Layer 236
5.3. Stiffness Coefficients of a Laminate 238
5.4. Quasi-Homogeneous Laminates 240
5.4.1. Laminate Composed of Identical Homogeneous Layers 240
5.4.2. Laminate Composed of Inhomogeneous Orthotropic Layers 240
5.4.3. Laminate Composed of Angle-Ply Layers 242
5.5. Quasi-Isotropic Laminates 243
5.6. Symmetric Laminates 245
5.7. Antisymmetric Laminates 248
5.8. Sandwich Structures 249
