Journal ArticleDOI
An introduction to phase-field modeling of microstructure evolution
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TLDR
In this article, the authors introduce the concept of diffuse interfaces, the phase-field variables, the thermodynamic driving force for microstructure evolution and the kinetic phasefield equations are discussed.Abstract:
The phase-field method has become an important and extremely versatile technique for simulating microstructure evolution at the mesoscale. Thanks to the diffuse-interface approach, it allows us to study the evolution of arbitrary complex grain morphologies without any presumption on their shape or mutual distribution. It is also straightforward to account for different thermodynamic driving forces for microstructure evolution, such as bulk and interfacial energy, elastic energy and electric or magnetic energy, and the effect of different transport processes, such as mass diffusion, heat conduction and convection. The purpose of the paper is to give an introduction to the phase-field modeling technique. The concept of diffuse interfaces, the phase-field variables, the thermodynamic driving force for microstructure evolution and the kinetic phase-field equations are introduced. Furthermore, common techniques for parameter determination and numerical solution of the equations are discussed. To show the variety in phase-field models, different model formulations are exploited, depending on which is most common or most illustrative.read more
Citations
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Dissertation
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Journal ArticleDOI
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References
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Journal ArticleDOI
Shape of a rhombohedral coherent Ti11Ni14 precipitate in a cubic matrix and its growth and dissolution during constrained aging
Dongyang Li,Long Qing Chen +1 more
TL;DR: In this paper, the shape of a coherent rhombohedral precipitate in a cubic matrix and its growth and dissolution during strain-constrained aging were investigated using a time-dependent Ginzburg-Landau kinetic model by taking into account the coupling between the constraint (applied) strain and the local strain.
Journal ArticleDOI
2D and 3D phase-field simulations of lamella and fibrous eutectic growth
TL;DR: In this article, the authors applied the multi-phase field method to the eutectic growth problem of binary alloys and simulated the directional solidification of a binary EH during the initial transient state in 2 and 3 dimensions.
Journal ArticleDOI
Bounding box algorithm for three-dimensional phase-field simulations of microstructural evolution in polycrystalline materials.
TL;DR: A sparse bounding box algorithm is proposed that allows the use of a large number of phase-field variables without excessive memory usage or computational requirements.
Journal ArticleDOI
Modeling diffusional coarsening in eutectic tin/lead solders: a quantitative approach
TL;DR: In this paper, a quantitative simulation of phase separation and coarsening in eutectic tin/lead solders is presented, based on continuum theory and phase field models.
Journal ArticleDOI
Computer Simulation of Grain Growth Kinetics with Solute Drag
D. Fan,S. P. Chen,Long Qing Chen +2 more
TL;DR: In this article, the effects of solute dragon grain growth kinetics were studied in two dimensional (2D) computer simulations by using a diffuse-interface field model, and it was shown that the velocity of a grain boundary motion departs from a linear relation with driving force (curvature) with solute drag.