[HTML][HTML] Understanding and design of metallic alloys guided by phase-field simulations
Y Zhao - npj Computational Materials, 2023 - nature.com
Phase-field method (PFM) has become a mainstream computational method for predicting
the evolution of nano and mesoscopic microstructures and properties during materials …
the evolution of nano and mesoscopic microstructures and properties during materials …
In-situ experimental and high-fidelity modelling tools to advance understanding of metal additive manufacturing
Metal additive manufacturing has seen extensive research and rapidly growing applications
for its high precision, efficiency, flexibility, etc. However, the appealing advantages are still …
for its high precision, efficiency, flexibility, etc. However, the appealing advantages are still …
[HTML][HTML] Thermal and solute diffusion in α-Mg dendrite growth of Mg-5wt.% Zn alloy: A phase-field study
Thermal and solute diffusion plays an important role in α-Mg dendrite growth, the diffusion
mechanism of which is still unclear. Here, thermal and solute diffusion in α-Mg dendrite …
mechanism of which is still unclear. Here, thermal and solute diffusion in α-Mg dendrite …
Microstructural pattern formation during far-from-equilibrium alloy solidification
We introduce a new phase-field formulation of rapid alloy solidification that quantitatively
incorporates nonequilibrium effects at the solid-liquid interface over a very wide range of …
incorporates nonequilibrium effects at the solid-liquid interface over a very wide range of …
Development of phase-field modeling in materials science in China: a review
Phase-field method, as a powerful and popular approach to predict the mesoscale
microstructure evolution in various materials science, provides a bridge from atomic-scale …
microstructure evolution in various materials science, provides a bridge from atomic-scale …
Towards inverse microstructure-centered materials design using generative phase-field modeling and deep variational autoencoders
Abstract The field of Integrated Computational Materials Engineering (ICME) combines a
broad range of methods to study materials' responses over a spectrum of length scales. A …
broad range of methods to study materials' responses over a spectrum of length scales. A …
Multiscale simulation of powder-bed fusion processing of metallic alloys
We present a computational framework for the simulations of powder-bed fusion of metallic
alloys, which combines:(1) CalPhaD calculations of temperature-dependent alloy properties …
alloys, which combines:(1) CalPhaD calculations of temperature-dependent alloy properties …
A quantitative variational phase field framework
The finite solid–liquid interface width in phase field models results in non-equilibrium effects,
including solute trapping. Prior phase field modeling has shown that this extra degree of …
including solute trapping. Prior phase field modeling has shown that this extra degree of …
Grain growth competition during melt pool solidification—Comparing phase-field and cellular automaton models
A broad range of computational models have been proposed to predict microstructure
development during solidification processing but they have seldom been compared to each …
development during solidification processing but they have seldom been compared to each …
Multiphysics multi-scale computational framework for linking process–structure–property relationships in metal additive manufacturing: a critical review
This review article provides a critical assessment of the progress made in computational
modelling of metal-based additive manufacturing (AM) with emphasis on its ability to predict …
modelling of metal-based additive manufacturing (AM) with emphasis on its ability to predict …