| Introduction | p. 1 |
| Purpose and Scope | p. 2 |
| Mechanical Concepts and Mathematical Representations | p. 4 |
| Index Notation | p. 4 |
| Systems | p. 5 |
| Summation Convention | p. 5 |
| Position of Indices | p. 7 |
| Vector Notation | p. 7 |
| Kronecker Delta | p. 8 |
| Permutation Symbol | p. 9 |
| Symmetrical and Antisymmetrical Systems | p. 10 |
| Abbreviation for Partial Derivatives | p. 12 |
| Terminology | p. 12 |
| Specific Notations | p. 12 |
| Vectors, Tensors, and Curvilinear Coordinates | p. 21 |
| Introduction | p. 21 |
| Curvilinear Coordinates, Base Vectors, and Metric Tensor | p. 22 |
| Products of Base Vectors | p. 26 |
| Components of Vectors | p. 28 |
| Surface and Volume Elements | p. 31 |
| Derivatives of Vectors | p. 33 |
| Tensors and Invariance | p. 35 |
| Associated Tensors | p. 39 |
| Covariant Derivative | p. 40 |
| Transformation from Cartesian to Curvilinear Coordinates | p. 42 |
| Integral Transformations | p. 43 |
| Deformation | p. 45 |
| Concept of a Continuous Medium | p. 45 |
| Geometry of the Deformed Medium | p. 46 |
| Dilation of Volume and Surface | p. 50 |
| Vectors and Tensors Associated with the Deformed System | p. 52 |
| Nature of Motion in Small Regions | p. 54 |
| Strain | p. 56 |
| Transformation of Strain Components | p. 60 |
| Principal Strains | p. 61 |
| Maximum Shear Strain | p. 63 |
| Determination of Principal Strains and Principal Directions | p. 65 |
| Determination of Extremal Shear Strain | p. 69 |
| Engineering Strain Tensor | p. 72 |
| Strain Invariants and Volumetric Strain | p. 73 |
| Decomposition of Motion into Rotation and Deformation | p. 74 |
| Rotation Followed by Deformation | p. 75 |
| Deformation Followed by Rotation | p. 80 |
| Increments of Rotation | p. 82 |
| Physical Components of the Engineering Strain | p. 84 |
| Strain-Displacement Relations | p. 86 |
| Compatibility of Strain Components | p. 88 |
| Rates and Increments of Strain and Rotation | p. 93 |
| Eulerian Strain Rate | p. 95 |
| Strain Deviator | p. 97 |
| Approximation of Small Strain | p. 98 |
| Approximations of Small Strain and Moderate Rotation | p. 99 |
| Approximations of Small Strain and Small Rotation | p. 102 |
| Stress | p. 103 |
| Stress Vector | p. 103 |
| Couple Stress | p. 105 |
| Actions Upon an Infinitesimal Element | p. 106 |
| Equations of Motion | p. 107 |
| Tensorial and Invariant Forms of Stress and Internal Work | p. 109 |
| Transformation of Stress--Physical Basis | p. 113 |
| Properties of a Stressed State | p. 116 |
| Hydrostatic Stress | p. 119 |
| Stress Deviator | p. 120 |
| Alternative Forms of the Equations of Motion | p. 120 |
| Significance of Small Strain | p. 121 |
| Approximation of Moderate Rotations | p. 121 |
| Approximations of Small Strains and Small Rotations; Linear Theory | p. 122 |
| Example: Buckling of a Beam | p. 122 |
| Behavior of Materials | p. 127 |
| Introduction | p. 127 |
| General Considerations | p. 128 |
| Thermodynamic Principles | p. 129 |
| Excessive Entropy | p. 130 |
| Heat Flow | p. 131 |
| Entropy, Entropy Flux, and Entropy Production | p. 131 |
| Work of Internal Forces (Stresses) | p. 133 |
| Alternative Forms of the First and Second Laws | p. 134 |
| Saint-Venant's Principle | p. 135 |
| Observations of Simple Tests | p. 136 |
| Elasticity | p. 139 |
| Inelasticity | p. 143 |
| Linearly Elastic (Hookean) Material | p. 145 |
| Monotropic Hookean Material | p. 147 |
| Orthotropic Hookean Material | p. 148 |
| Transversely Isotropic (Hexagonally Symmetric) Hookean Material | p. 149 |
| Isotropic Hookean Material | p. 150 |
| Heat Conduction | p. 152 |
| Heat Conduction in the Hookean Material | p. 152 |
| Coefficients of Isotropic Elasticity | p. 154 |
| Simple Tension | p. 154 |
| Simple Shear | p. 155 |
| Uniform Hydrostatic Pressure | p. 156 |
| Alternative Forms of the Energy Potentials | p. 157 |
| Hookean Behavior in Plane-Stress and Plane-Strain | p. 158 |
| Justification of Saint-Venant's Principle | p. 160 |
| Yield Condition | p. 161 |
| Yield Condition for Isotropic Materials | p. 163 |
| Tresca Yield Condition | p. 166 |
| von Mises Yield Criterion | p. 168 |
| Plastic Behavior | p. 169 |
| Incremental Stress-Strain Relations | p. 174 |
| Geometrical Interpretation of the Flow Condition | p. 177 |
| Thermodynamic Interpretation | p. 178 |
| Tangent Modulus of Elasto-plastic Deformations | p. 179 |
| The Equations of Saint-Venant, Levy, Prandtl, and Reuss | p. 180 |
| Hencky Stress-Strain Relations | p. 183 |
| Plasticity without a Yield Condition; Endochronic Theory | p. 184 |
| An Endochronic Form of Ideal Plasticity | p. 187 |
| Viscous Behavior | p. 191 |
| Newtonian Fluid | p. 194 |
| Linear Viscoelasticity | p. 196 |
| Isotropic Linear Viscoelasticity | p. 205 |
| Differential Forms of the Stress-Strain Relations | p. 205 |
| Integral Forms of the Stress-Strain Relations | p. 207 |
| Relations between Compliance and Modulus | p. 208 |
| Principles of Work and Energy | p. 211 |
| Introduction | p. 211 |
| Historical Remarks | p. 212 |
| Terminology | p. 212 |
| Work, Kinetic Energy, and Fourier's Inequality | p. 215 |
| The Principle of Virtual Work | p. 216 |
| Conservative Forces and Potential Energy | p. 218 |
| Principle of Stationary Potential Energy | p. 220 |
| Complementary Energy | p. 220 |
| Principle of Minimum Potential Energy | p. 221 |
| Structural Stability | p. 223 |
| Stability at the Critical Load | p. 226 |
| Equilibrium States Near the Critical Load | p. 232 |
| Effect of Small Imperfections upon the Buckling Load | p. 237 |
| Principle of Virtual Work Applied to a Continuous Body | p. 244 |
| Principle of Stationary Potential Applied to a Continuous Body | p. 247 |
| Generalization of the Principle of Stationary Potential | p. 249 |
| General Functional and Complementary Parts | p. 254 |
| Principle of Stationary Complementary Potential | p. 256 |
| Extremal Properties of the Complementary Potentials | p. 259 |
| Functionals and Stationary Theorem of Hellinger-Reissner | p. 260 |
| Functionals and Stationary Criteria for the Continuous Body; Summary | p. 262 |
| Generalization of Castigliano's Theorem on Displacement | p. 263 |
| Variational Formulations of Inelasticity | p. 267 |
| Linear Theories of Isotropic Elasticity and Viscoelasticity | p. 273 |
| Introduction | p. 273 |
| Uses and Limitations of the Linear Theories | p. 274 |
| Kinematic Equations of a Linear Theory | p. 275 |
| Linear Equations of Motion | p. 276 |
| Linear Elasticity | p. 277 |
| The Boundary-Value Problems of Linear Elasticity | p. 278 |
| Kinematic Formulation | p. 279 |
| Solutions via Displacements | p. 280 |
| Formulation in Terms of Stresses | p. 282 |
| Plane Strain and Plane Stress | p. 285 |
| Airy Stress Function | p. 288 |
| Stress Concentration at a Circular Hole in a Plate | p. 289 |
| General Solution by Complex Variables | p. 292 |
| Simple Bending of a Slender Rod | p. 293 |
| Torsion of a Cylindrical Bar | p. 297 |
| Saint-Venant's Theory | p. 297 |
| Prandtl Stress Function | p. 301 |
| Alternative Formulation | p. 304 |
| An Example of Stress Concentration | p. 306 |
| Linear Viscoelasticity | p. 308 |
| Kinematic Formulation | p. 309 |
| Quasistatic Problems and Separation of Variables | p. 309 |
| Quasistatic Problems in Terms of Displacements | p. 310 |
| Quasistatic Problems in Terms of Stresses | p. 311 |
| Laplace Transforms and Correspondence with Elastic Problems | p. 312 |
| Differential Geometry of a Surface | p. 315 |
| Introduction | p. 315 |
| Base Vectors and Metric Tensors of the Surface | p. 315 |
| Products of the Base Vectors | p. 318 |
| Derivatives of the Base Vectors | p. 319 |
| Metric Tensor of the Three-Dimensional Space | p. 321 |
| Fundamental Forms | p. 321 |
| Curvature and Torsion | p. 322 |
| Volume and Area Differentials | p. 328 |
| Vectors, Derivatives, and Covariant Derivatives | p. 330 |
| Surface Tensors | p. 331 |
| Green's Theorem (Partial Integration) for a Surface | p. 333 |
| Equations of Gauss and Codazzi | p. 335 |
| Theory of Shells | p. 339 |
| Introduction | p. 339 |
| Historical Perspective | p. 345 |
| The Essence of Shell Theory | p. 346 |
| Scope of the Current Treatment | p. 347 |
| Kinematics | p. 348 |
| Strains and Stresses | p. 355 |
| Equilibrium | p. 357 |
| Complementary Potentials | p. 360 |
| Physical Interpretations | p. 363 |
| Theory of Membranes | p. 365 |
| Approximations of Small Strain | p. 366 |
| The Meaning of Thin | p. 370 |
| Theory of Hookean Shells with Transverse Shear Strain | p. 371 |
| Theories under the Kirchhoff-Love Constraint | p. 377 |
| Kinematics | p. 377 |
| Stresses and Strains | p. 379 |
| Equilibrium | p. 381 |
| Compatibility Equations, Stress Functions, and the Static-Geometric Analogy | p. 385 |
| Constitutive Equations of the Hookean Shell | p. 389 |
| Constitutive Equations of the Thin Hookean Shell | p. 390 |
| Intrinsic Kirchhoff-Love Theories | p. 394 |
| Plasticity of the Kirchhoff-Love Shell | p. 398 |
| Introduction | p. 398 |
| Computational Experiments | p. 401 |
| Quasi-Shell or Multi-Layer Model | p. 405 |
| Approximation by a "Sandwich" Shell | p. 407 |
| A Derived Theory | p. 411 |
| A Direct Theory | p. 416 |
| Strain-Displacement Equations | p. 421 |
| Approximation of Small Strains and Moderate Rotations | p. 424 |
| Theory of Shallow Shells | p. 429 |
| Buckling of Thin Elastic Shells | p. 431 |
| Introduction | p. 431 |
| Equations of a Critical State | p. 434 |
| Refinements-Limitations-References | p. 438 |
| Concepts of Approximation | p. 441 |
| Introduction | p. 441 |
| Alternative Means of Approximation | p. 442 |
| Brief Retrospection | p. 444 |
| Concept of Finite Differences | p. 446 |
| Stationarity of Functionals; Solutions and Forms of Approximation | p. 447 |
| Nodal Approximations via the Stationarity of a Functional | p. 452 |
| Higher-Order Approximations with Continuous Derivatives | p. 453 |
| Approximation by Finite Elements; Physical and Mathematical Implications | p. 456 |
| Approximation via the Potential; Convergence | p. 461 |
| Valid Approximations, Excessive Stiffness, and Some Cures | p. 462 |
| Approximation via the Modified Potential; Convergence and Efficiency | p. 467 |
| Nonconforming Elements; Approximations with Discontinuous Displacements | p. 470 |
| Introduction | p. 470 |
| Patch Test | p. 471 |
| Constraints via Lagrangean Multipliers | p. 474 |
| Constraints via Penalty Functions | p. 477 |
| Finite Elements of Shells; Basic Features | p. 478 |
| Inherent Characteristics | p. 478 |
| Some Consequences of Thinness | p. 479 |
| Simple Conforming Elements | p. 480 |
| Summary | p. 486 |
| Supplementary Remarks on Elemental Approximations | p. 487 |
| Approximation of Nonlinear Paths | p. 487 |
| References | p. 493 |
| Index | p. 517 |
| Table of Contents provided by Syndetics. All Rights Reserved. |
