专题:Solidification and crystal growth phenomena

This cluster of papers focuses on the application of phase-field models to study microstructure evolution, solidification, crystal growth, and elasticity in materials science. It covers topics such as diffuse interface methods for simulating complex fluids, modeling of multicomponent alloys, dendritic growth, and thermodynamically consistent numerical simulations.
最新文献
NUMERICAL STUDY OF A NON-NEWTONIAN PHASE CHANGE FLOW IN FINNED RECTANGULAR ENCLOSURES

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Efficient implementation of the Allen–Cahn phase-field method for material interface tracking

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Finite-temperature bubble nucleation with shifting scale hierarchies

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Thermovelocimetric characterization of liquid metal convection in a rotating slender cylinder

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Review—Phase Field Simulation for Dendrite Growth in Energy Storage Batteries

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Compositional criteria to predict columnar to equiaxed transitions in metal additive manufacturing

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High-Order Asymptotically Compatible Energy-Dissipation Scheme for the Time-Fractional Swift-Hohenberg Equation

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Phase-field modeling of fiber-based thermal diffusion and phase transitions in the fused deposition modeling process

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Atomic structural basis for magnetic field regulating nucleation behavior in monometallic Al and Zn melts

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Alloy design strategies for Fe-rich particle manipulation via unveiling the solidification behavior of Cu-Fe-Si alloys

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近5年高被引文献
From classical thermodynamics to phase-field method

article Full Text OpenAlex 332 FWCI19.158

Solving Allen-Cahn and Cahn-Hilliard Equations using the Adaptive Physics Informed Neural Networks

article Full Text OpenAlex 205 FWCI15.928

Reversible disorder-order transitions in atomic crystal nucleation

article Full Text OpenAlex 204 FWCI14.268

Phase-field modeling of grain evolutions in additive manufacturing from nucleation, growth, to coarsening

article Full Text OpenAlex 185 FWCI15.143

Accelerating phase-field-based microstructure evolution predictions via surrogate models trained by machine learning methods

article Full Text OpenAlex 170 FWCI10.377

A novel sequential method to train physics informed neural networks for Allen Cahn and Cahn Hilliard equations

article Full Text OpenAlex 166 FWCI18.998

Understanding and design of metallic alloys guided by phase-field simulations

article Full Text OpenAlex 158 FWCI19.543

Dislocation motion in plastic deformation of nano polycrystalline metal materials: a phase field crystal method study

article Full Text OpenAlex 152 FWCI12.451

Phase-field modeling of microstructure evolution: Recent applications, perspectives and challenges

article Full Text OpenAlex 147 FWCI8.2

Redefined interface error, 2D verification and validation for pure solid-gallium phase change modeling by enthalpy-porosity methodology

article Full Text OpenAlex 146 FWCI24.934