Grain orientation and shape evolution of ferroelectric ceramic thick films simulated by phase-field method. [PDF]
Sci RepZhang Y, Li Q, Yue Q, Wang P, Liu Z.
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Phase-Field Simulation of Precipitation and Grain Boundary Segregation in Fe-Cr-Al Alloys under Irradiation. [PDF]
Nanomaterials (Basel)Liu X, Shen W, Liu W.
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Chemomechanical damage prediction from phase-field simulation video sequences using a deep-learning-based methodology. [PDF]
iScienceZeng Q +6 more
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Revealing process and material parameter effects on densification via phase-field studies. [PDF]
Sci RepSeiz M +3 more
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Investigation of the Effect of Stress on Oxygen Diffusion in Pure Titanium Using a Phase-Field Model. [PDF]
Materials (Basel)Wang Y, Zhang M, Yang H.
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Analyzing the Effects of Cr and Mo on the Pearlite Formation in Hypereutectoid Steel Using Experiments and Phase Field Numerical Simulations. [PDF]
Materials (Basel)Qayyum F +5 more
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Dislocation loop and irradiation-induced synergistic-competitive mechanism in Cu-rich precipitates: a phase-field study. [PDF]
Sci RepYang W +5 more
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A Topology Constrained Phase Field Model
SSRN Electronic Journal, 2022zbMATH Open Web Interface contents unavailable due to conflicting licenses.
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In an ideal scenario, a phase field model is able to compute quantitative aspects of the evolution of microstructure without explicit intervention. The method is particularly appealing because it provides a visual impression of the development of structure, one which often matches observations.
Qin, RS, Bhadeshia, HK
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