| Foreword | p. vii |
| Preface | p. xi |
| Acknowledgements | p. xiii |
| Introduction | p. 1 |
| Motivation and objectives | p. 1 |
| Outline of the main topics | p. 7 |
| Further studies recommendations | p. 14 |
| Summary of main notations | p. 16 |
| Boundary value problem in linear and nonlinear elasticity | p. 21 |
| Boundary value problem in elasticity with small displacement gradients | p. 22 |
| Domain and boundary conditions | p. 22 |
| Strong form of boundary value problem in 1D elasticity | p. 24 |
| Weak from of boundary value problem in 1D elasticity and the principle of virtual work | p. 28 |
| Variational formulation of boundary value problem in 1D elasticity and principle of minimum potential energy | p. 31 |
| Finite element solution of boundary value problems in 1D linear and nonlinear elasticity | p. 35 |
| Qualitative methods of functional analysis for solution existence and uniqueness | p. 35 |
| Approximate solution construction by Galerkin, Ritz and finite element methods | p. 39 |
| Approximation error and convergence of finite element method | p. 45 |
| Solving a system of linear algebraic equations by Gauss elimination method | p. 50 |
| Solving a system of nonlinear algebraic equations by incremental analysis | p. 55 |
| Solving a system of nonlinear algebraic equations by Newton's iterative method | p. 59 |
| Implementation of finite element method in 1D boundary value problems | p. 65 |
| Local or elementary description | p. 65 |
| Consistence of finite element approximation | p. 69 |
| Equivalent nodal external load vector | p. 70 |
| Higher order finite elements | p. 71 |
| Role of numerical integration | p. 73 |
| Finite element assembly procedure | p. 77 |
| Boundary value problems in 2D and 3D elasticity | p. 79 |
| Tensor, index and matrix notations | p. 79 |
| Strong from of a boundary value problem in 2D and 3D elasticity | p. 89 |
| Weak form of boundary value problem in 2D and 3D elasticity | p. 98 |
| Detailed aspects of the finite element method | p. 101 |
| Isoparametric finite elements | p. 101 |
| Order of numerical integration | p. 107 |
| The patch test | p. 109 |
| Hu-Washizu (mixed) variational principle and method of incompatible modes | p. 111 |
| Hu-Washizu (mixed) variational principle and assumed strain method for quasi-incompressible behavior | p. 120 |
| Inelastic behavior at small strains | p. 125 |
| Boundary value problem in thermomechanics | p. 127 |
| Rigid conductor and heat equation | p. 127 |
| Numerical solution by time-integration scheme for heat transfer problem | p. 134 |
| Thermomechanical coupling in elasticity | p. 142 |
| Thermodynamics potentials in elasticity | p. 146 |
| Thermodynamics of inelastic behavior: constitutive models with internal variables | p. 148 |
| Internal variables in viscoelasticity | p. 152 |
| Internal variables in viscoelasticity | p. 154 |
| 1D models of perfect plasticity and plasticity with hardening | p. 156 |
| 1D perfect plasticity | p. 156 |
| 1D plasticity with isotropic hardening | p. 161 |
| Boundary value problem for 1D plasticity | p. 165 |
| 3D plasticity | p. 181 |
| Standard format of 3D plasticity model: Prandtl-Reuss equations | p. 181 |
| J2 plasticity model with von Mises plasticity criterion | p. 186 |
| Implicit backward Euler scheme and operator split for von Mises plasticity | p. 188 |
| Finite element numerical implementation in 3D plasticity | p. 193 |
| Refined models of 3D plasticity | p. 199 |
| Nonlinear isotropic hardening | p. 199 |
| Kinematic hardening | p. 201 |
| Plasticity model dependent on rate of deformation or viscoplasticity | p. 205 |
| Multi-surface plasticity criterion | p. 210 |
| Plasticity model with nonlinear elastic response | p. 217 |
| Damage models | p. 222 |
| 1D damage model | p. 222 |
| 3D damage model | p. 228 |
| Refinements of 3D damage model | p. 231 |
| Isotropic damage model of Kachanov | p. 231 |
| Numerical examples: damage model combining isotropic and multisurface criteria | p. 235 |
| Coupled plasticity-damage model | p. 238 |
| Theoretical formulation of 3D coupled model | p. 238 |
| Time integration of stress for coupled plasticity-damage model | p. 242 |
| Direct stress interpolation for coupled plasticity-damage model | p. 250 |
| Large displacements and deformations | p. 257 |
| Kinematics of large displacements | p. 259 |
| Motion in large displacements | p. 259 |
| Deformation gradient | p. 263 |
| Large deformation measures | p. 268 |
| Equilibrium equations in large displacements | p. 272 |
| Strong form of equilibrium equations | p. 273 |
| Weak form of equilibrium equations | p. 276 |
| Linear elastic behavior in large displacements: Saint-Venant-Kirchhoff material model | p. 281 |
| Weak form of Saint-Venant-Kirchhoff 3D elasticity model and its consistent linearization | p. 287 |
| Numerical implementation of finite element method in large displacements elasticity | p. 289 |
| 1D boundary value problem: elastic bar in large displacements | p. 290 |
| 2D plane elastic membrane in large displacements | p. 296 |
| Spatial description of elasticity in large displacements | p. 299 |
| Finite element approximation of spatial description of elasticity in large displacements | p. 306 |
| Mixed variational formulation in large displacements and discrete approximations | p. 308 |
| Mixed Hu-Washizu variational principle in large displacements and method of incompatible modes | p. 308 |
| Mixed Hu-Washizu variational principle in large displacements and assumed strain methods for quasi-incompressible behavior | p. 315 |
| Constitutive models for large strains | p. 321 |
| Invariance restrictions on elastic response | p. 321 |
| Constitutive laws for large deformations in terms of principal stretches | p. 327 |
| Plasticity and viscoplasticity for large deformations | p. 337 |
| Multiplicative decomposition of deformation gradient | p. 337 |
| Perfect plasticity for large deformations | p. 340 |
| Isotropic and kinematic hardening in large deformation plasticity | p. 347 |
| Spatial description of large deformation plasticity | p. 350 |
| Numerical implementation of large deformation plasticity | p. 352 |
| Changing boundary conditions: contact problems | p. 361 |
| Unilateral 1D contact problem | p. 362 |
| Strong form of 1D elasticity in presence of unilateral contact constraint | p. 363 |
| Weak form of unilateral 1D contact problem and its finite element solution | p. 365 |
| Contact problems in 2D and 3D | p. 375 |
| Contact between two deformable bodies in 2D case | p. 379 |
| Mortar element method for contact | p. 384 |
| Numerical examples of contact problems | p. 389 |
| Refinement of contact model | p. 390 |
| Dynamics and time-integration schemes | p. 393 |
| Initial boundary value problem | p. 394 |
| Strong form of elastodynamics | p. 394 |
| Weak form of equations of motion | p. 396 |
| Finite element approximation for mass matrix | p. 399 |
| Time-integration schemes | p. 402 |
| Central difference (explicit) scheme | p. 403 |
| Trapezoidal rule or average acceleration (implicit) scheme | p. 407 |
| Mid-point (implicit) scheme and its modifications for energy conservation and energy dissipation | p. 411 |
| Mid-point (implicit) scheme for finite deformation plasticity | p. 417 |
| Contact problem and time-integration schemes | p. 420 |
| Mid-point (implicit) scheme for contact problem in dynamics | p. 420 |
| Central difference (explicit) scheme and impact problem | p. 423 |
| Thermodynamics and solution methods for coupled problems | p. 427 |
| Thermodynamics of reversible processes | p. 428 |
| Thermodynamical coupling in 1D elasticity | p. 428 |
| Thermodynamics coupling in 3D elasticity and constitutive relations | p. 433 |
| Initial-boundary value problem in thermoelasticity and operator split solution method | p. 437 |
| Weak form of initial-boundary value problem in 3D elasticity and its discrete approximation | p. 437 |
| Operator split solution method for 3D thermoelasticity | p. 444 |
| Numerical examples in thermoelasticity | p. 448 |
| Thermodynamics of irreversible processes | p. 452 |
| Thermodynamics coupling for 1D plasticity | p. 453 |
| Thermodynamics coupling in 3D plasticity | p. 458 |
| Operator split solution method for 3D thermoplasticity | p. 462 |
| Numerical example: thermodynamics coupling in 3D plasticity | p. 466 |
| Thermomechanical coupling in contact | p. 469 |
| Geometric and material instabilities | p. 475 |
| Geometric instabilities | p. 476 |
| Buckling, nonlinear instability and detection criteria | p. 476 |
| Solution methods for boundary value problem in presence of instabilities | p. 483 |
| Material instabilities | p. 489 |
| Detection criteria for material instabilities | p. 491 |
| Illustration of finite element mesh lack of objectivity for localization problems | p. 497 |
| Localization limiters | p. 499 |
| List of localization limiters | p. 499 |
| Localization limiter based on mesh-dependent softening modulus - 1D case | p. 501 |
| Localization limiter based on viscoplastic regularization - 1D case | p. 503 |
| Localization limiter based on displacement or deformation discontinuity - 1D case | p. 506 |
| Localization limiter in plasticity for massive structure | p. 515 |
| Theoretical formulation of limiter with displacement discontinuity - 2D/3D case | p. 515 |
| Numerical implementation within framework of incompatible mode method | p. 521 |
| Numerical examples for localization problems | p. 524 |
| Localization problem in large strain plasticity | p. 527 |
| Multi-scale modelling of inelastic behavior | p. 531 |
| Scale coupling for inelastic behavior in quasi-static problems | p. 532 |
| Weak coupling: nonlinear homogenization | p. 533 |
| Strong coupling micro-macro | p. 535 |
| Microstructure representation | p. 543 |
| Microstructure representation by structured mesh with isoparametric finite elements | p. 544 |
| Microstructure representation by structured mesh with incompatible mode elements | p. 546 |
| Microstructure representation with uncertain geometry and probabilistic interpretation of size effect for dominant failure mechanism | p. 548 |
| Conclusions and remarks on current research works | p. 553 |
| References | p. 557 |
| Index | p. 571 |
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