Engineering Elasticity: Application of Numerical and Analytical Techniques |
Contents
ANALYSIS OF STRESS | 1 |
ANALYSIS OF STRAIN | 37 |
FUNDAMENTALS OF ELASTICITY THEORY | 74 |
Copyright | |
12 other sections not shown
Common terms and phrases
a²w analysis angle applied axi-symmetric axial axis beam bending biharmonic equation biharmonic problems body force boundary conditions C₁ C₂ cartesian coordinates coefficients computed considered constant constitutive equations cos² crack tip cross-section cylinder cylindrical polar defined derivative deviatoric differential equation direct strain direct stress direction cosines displacement dx dy elastic equilibrium example finite difference finite element methods grid harmonic Hence hoop stress line load linear matrix mesh MN/m² nodal points nodes oblique plane obtained plane strain plane stress plate polar coordinates principal stresses quadratic R₁ R₂ radial radius result satisfied shear strain shear stress shell shown in Fig solution domain stress components stress concentration stress distributions stress function stress intensity factor surface symmetry three-dimensional torsion two-dimensional unit length values variations vector zero аф ди Эх ду