| Chapter 1 |
Basic solid mechanics |
| |
Elasticity; Thermoelasticity; Principal stresses; Failure criteria; References
|
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| Chapter 2 |
Boundary Integral Equations |
| |
BIEs for the potential problem; BIEs
for the elastostatic problem; BIEs for the thermoelastic problem; Numerical
implementation; References |
| |
| Chapter 3 |
Elements for two- and three- dimensional
problems |
| |
Lagrange elements; Overhauser elements;
B-spline elements; Hermite elements; Transition elements; References |
| |
| Chapter 4 |
Overview of the computation of boundary
stresses |
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Computation of boundary stresses; Formulations
involving tangential derivatives of displacements; Other alternatives; References |
| |
| Chapter 5 |
Global reanalysis technique |
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Two-dimensional potential problem;
Two-dimensional elastostatic problem; Three-dimensional elastostatic problem;
Numerical results; References |
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| Chapter 6 |
Overview of adaptive meshing and error estimation
|
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Adaptive meshing techniques; Error indicators; 6.3 \textit A priori and
\textit a posteriori error indicators; Error indicators based on CBIEs;
Error indicators based on HBIEs; Error estimators; Adaptive strategies;
References
|
| |
| Chapter 7 |
New error indicators for two-dimensional problems
|
| |
Formulation; Numerical results; Numerical
results for the potential problem; Numerical results for the elastostatic
problem; Numerical results for thermoelasticity; References |
| |
| Chapter 7 |
New error indicators for three-dimensional problems
|
| |
Formulation; Numerical results; References |