A micromechanics-based constitutive model was developed, for InP, which took account of the movement and multiplication of dislocations. The model was based upon Alexander-Haasen single slip, and was expanded so as to include multiple slip and latent hardening. The model was incorporated into a finite-element program, and the results were compared with experimental data on compression tests in a single-slip orientation.

Micromechanical-Based Constitutive Relations for Modelling the Bulk Growth of Single Crystal InP. R.J.Kalan, A.M.Maniatty: Journal of Crystal Growth, 2001, 233[4], 645-59