6. Phase Field Microelasticity Theory and Modeling of Evolution of Defects
Evolution of a multi-dislocation system
under the stress:
Wang, Y.U., Jin, Y.M., Cuitiño, A.M. and Khachaturyan, A.G., “Phase
Field Microelasticity Theory and Modeling of Multiple Dislocation Dynamics”,
Appl. Phys. Lett., 78, 2324, 2001.
Wang, Y.U., Jin, Y.M., Cuitiño, A.M. and Khachaturyan, A.G., “Application of Phase Field Microelasticity Theory of Phase Transformations to Dislocation Dynamics: Model and Three-Dimensional Simulations in a Single Crystal”, Philos. Mag. Lett., 81, 385, 2001.
Wang, Y.U., Jin, Y.M., Cuitiño, A.M. and Khachaturyan, A.G., “Nanoscale Phase Field Microelasticity Theory of Dislocations: Model and 3D Simulations”, Acta Mater., 49, 1847, 2001.
Jin, Y.M. and Khachaturyan, A.G., “Phase Field Microelasticity Theory of Dislocation Dynamics in a Polycrystal: Model and Three-Dimensional Simulations”, Philos. Mag. Lett., 81, 607, 2001.
Y.U. Wang, Y.M. Jin, A.G. Khachaturyan, “Phase Field Microelasticity Modeling of Dislocation Dynamics Near Free Surface and in Heteroepitaxial Thin Film”, Acta Mater., 51, 4209, 2003.
Elastically inhomogeneous crystals:multi-crack,
multi-void systems, and polycrystals:
Y.M. Jin, Y.U. Wang, A.G. Khachaturyan, “Three-Dimensional Phase Field
Microelasticity Theory and Modeling of Multiple Cracks and Voids”,
Appl. Phys. Lett., 79, 3071, 2001.
Y.U. Wang, Y.M. Jin, A.G. Khachaturyan, ‘Phase Field Microelasticity Theory and Simulation of Multiple Voids and Cracks in Single Crystals and Polycrystals under Applied Stress’, J. Appl. Phys., 91, 6435, 2002.
Y.U. Wang, Y.M. Jin, A.G. Khachaturyan, ‘Three-Dimensional Phase Field Microelasticity Theory of a Complex Elastically Inhomogeneous Solid’, Appl. Phys. Lett., 80, 4513, 2002.
Y.U. Wang, Y.M. Jin, A.G. Khachaturyan, ‘Phase Field Microelasticity Theory and Modeling of Elastically in Structurally Inhomogeneous Solid’, J. Appl. Phys., 92, 1351, 2002.
Y.M. Jin, Y.U. Wang and A.G. Khachaturyan, “Three-Dimensional Phase Field Microelasticity Theory of Multi-Void and Multi-Crack System in Elastically Anisotropic Body: Model and Computer Simulations”, Philos. Mag., 83, 1587, 2003.
Y.U. Wang, Y.M. Jin and A.G. Khachaturyan, “Phase Field Microelasticity Modeling of Surface Instability of Heteroepitaxial Thin Films”, Acta Mater., 52, 81, 2004.