Simulation of Grains Growing as Influenced by Triple Line Dragging

Kunio Ito

doi:10.4028/www.scientific.net/MSF.753.121

Paper Titles

Grain Boundary Dynamics under an Applied Stress
p.101

Magnetically Controlled Grain Boundary Motion and Grain Growth in Zinc
p.107

Formation of Annealing Twins during Recrystallization and Grain Growth in 304L Austenitic Stainless Steel
p.113

Kinetics of Thermal Grooving during Low Temperature Recrystallization of Pure Aluminum
p.117

Simulation of Grains Growing as Influenced by Triple Line Dragging
p.121

Disconnection Motion in Low- and High-Angle Symmetrical Tilt Grain Boundaries in HCP Metal
p.125

A New Approach to Solute Effect on Grain Boundary Migration
p.131

On the Generalisation of JMAK's Theory
p.137

Modelling the Evolution in Microchemistry and its Effects on the Softening Behavior of Cold Rolled AlFeMnSi-Alloys during Annealing
p.143

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Simulation of Grains Growing as Influenced by Triple Line Dragging

Abstract:

A grain whose orientation and size were specified was embedded in a matrix grain structure. The matrix contained texture components in certain special orientations and those in general orientations, and the embedded grain had a certain special three-orientations-relation with grains in the former components. The dependence of growing behavior of an embedded grain on its number of faces of a grain has been examined by a modified Potts MC type 3D simulation and found to depend on the triple line dragging, suggesting that three-orientations-relation dependent triple line dragging can change the crystallographic texture through grain coarsening.