A model for solute diffusion in metals based on elasticity concepts

A mechanism for diffusion in solid metals is proposed in which the rate-limiting atom movements occur within small regions of disorder in the crystal. The disordered regions consist, on the average, of 12 to 14 atoms which have relaxed inward around a lattice vacancy, and have an energy content abou

The positional entropy for interstitial solutions in hcp metals is discussed and. by the application of a regular-solution parameter, an expression for Gibbs energy is derived for two types of ordered solutions which do not destroy the hexagonal symmetry. The relative stability of the two models and

## Abstract A finite element based method for solution of large‐deformation hyperelastic constitutive models is developed, which solves the Cauchy‐stress balance equation using a single rotation of stress from principal directions to a fixed co‐ordinate system. Features of the method include stress

kinetic model of the passivation of metals via formation of a dual layer comprising a barrier film and a salt overlayer is proposed. It is assumed that the barrier film grows through high field-assisted migration of defects. Ionic surface charges are formed both at the metal/barrier film and barrier