Dislocations in Solids: Some Recent Advances : Presented at the 1984 Pressure Vessels and Piping Conference and Exhibition, San Antonio, Texas, June 17-21, 1984Xanthippi Markenscoff |
Contents
The Fundamental Field Theory of Defects in Crystals | 1 |
Theory of Disclinations and Dispirations | 11 |
Structure of Amorphous Solids | 21 |
Copyright | |
7 other sections not shown
Common terms and phrases
Acta Metall affine anisotropic Asaro atoms axis behavior bond breaking brittle Burgers vector c₁/co component constant continuum crack growth crack nucleation crack tip crystallographic coordinates density differential geometry disclinations dislocation emission dislocation model dispiration displacement distribution of dislocations dynamic easy glide dislocations edge dislocation elastic emitted energy equation euclidean experimental f.c.c. metals fault formation fracture function gauge glide plane Green's function hydrogen image stresses interaction interface defects isotropic kink line tension lithium loading loop macroscopic Markenscoff material Mech Mechanics microcrack motion Moving Dislocations nonuniformly moving notch nucleation observed obtained Phys physical pile-up plastic deformation plastic zone point defects potassium propagation region resolved shear stress riemannian rotational screw dislocation shear bands shear stress shown in Fig single crystals slip plane slip systems solution strain hardening stress corrosion cracking stress intensity factor structure surface temperature tensile stress tensor theoretical theory of defects tion velocity Vitek yield