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Table of Contents
Preface; Contents; Acronyms; Latin Symbols; Greek Symbols; Script and Calligraphic Symbols; Introduction; References; 1 Mechanics; 1.1 Linear Elastostatics; 1.2 Nonlinear Elastostatics; 1.3 Hyperelastic Materials in Statics; 1.4 Linear Rheology; 1.5 Fractional Rheological Materials; 1.6 Associated Plasticity; 1.6.1 Isotropic Hardening; 1.6.2 Kinematic Hardening; 1.7 Linear Viscous Fluids; 1.8 Nonlinear Viscous Fluids; 1.9 Fluid Structure Interaction; References; 2 Thermodynamics; 2.1 Temperature Distribution in Macromechanics; 2.2 Heat Transfer in Micromechanics
2.3 Thermodynamics in a Nutshell2.4 Thermoviscoelasticity; 2.5 Thermoplasticity; References; 3 Electromagnetism; 3.1 Conducting Wire; 3.2 Polarized Materials; 3.2.1 Capacitor Simulation; 3.2.2 Transformer Simulation; 3.2.3 Proximity and Skin Effects; 3.3 Thermoelectric Coupling; 3.4 Plastic Fatigue in a Circuit Board; 3.5 Piezoelectric Transducer; 3.6 Magnetohydrodynamics in Metal Smelting; References; Appendix ; A.1 Quick Introduction to Programming; A.2 Solvers in FEniCS; A.3 Complicated Geometries in FEniCS; A.4 Objective Time Rate of Strain Tensor; A.5 Time Discretization
A.6 Gauge Freedom in Electromagnetic FieldsReference; Index
2.3 Thermodynamics in a Nutshell2.4 Thermoviscoelasticity; 2.5 Thermoplasticity; References; 3 Electromagnetism; 3.1 Conducting Wire; 3.2 Polarized Materials; 3.2.1 Capacitor Simulation; 3.2.2 Transformer Simulation; 3.2.3 Proximity and Skin Effects; 3.3 Thermoelectric Coupling; 3.4 Plastic Fatigue in a Circuit Board; 3.5 Piezoelectric Transducer; 3.6 Magnetohydrodynamics in Metal Smelting; References; Appendix ; A.1 Quick Introduction to Programming; A.2 Solvers in FEniCS; A.3 Complicated Geometries in FEniCS; A.4 Objective Time Rate of Strain Tensor; A.5 Time Discretization
A.6 Gauge Freedom in Electromagnetic FieldsReference; Index