Keywords: رشد دانه; Mechanical properties testing; Grain boundary diffusion; Grain growth; Ceria tetragonal zirconia
مقالات ISI رشد دانه (ترجمه نشده)
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Keywords: رشد دانه; Thermal stability; Monte Carlo simulation; Nanocomposite materials; Microstructure; Grain growth
Keywords: رشد دانه; Transmission electron microscopy (TEM); Grain growth; Nanocrystalline metal; Thin films
Keywords: رشد دانه; Grain boundary energy; Grain growth; Nanocrystalline materials; Precipitation
Keywords: رشد دانه; Grain boundary; Particle pinning; Phase-field; Grain growth;
Keywords: رشد دانه; Grain boundary migration; Grain growth; Molecular dynamics (MD); Roughening;
Keywords: رشد دانه; Grain growth; Size distribution; Phase field crystal; Scaling law;
Keywords: رشد دانه; Grain growth; Nanocrystalline microstructure; Grain boundary junctions; Junction drag effect; Phenomenological approach;
Keywords: رشد دانه; Polycrystalline germanium; Grain growth; Secondary grain growth; Thin film transistors; Annealing;
Keywords: رشد دانه; Zinc oxide film; Grain growth; Polarity; Doping
Keywords: رشد دانه; aluminum (Al); carbon nanotubes (CNTs); composites; nanocrystalline; grain growth;
Keywords: رشد دانه; Microindentation; Grain growth; Twinning; Coincidence lattice; Precession enhanced diffraction;
Keywords: رشد دانه; Core-shelled structure; Zirconia; Grain growth; Pulse current heating; Nanopowder;
Keywords: رشد دانه; Grain boundaries; Grain growth; Dilatometry;
Keywords: رشد دانه; Hydroxyapatite; Spark plasma sintering; Hydrothermal; Grain growth
Keywords: رشد دانه; Polycrystalline microstructure; Grain growth; Stress analysis; Monte Carlo simulation; Finite element method
Keywords: رشد دانه; Heating rate; Densification; Nanocrystalline ceramics; Plastic deformation; Grain growth
Keywords: رشد دانه; Grain growth; Densification; Yttria; Heating rate; Nanocrystalline ceramics
Keywords: رشد دانه; Grain growth; Nanocrystalline material; Triple junctions; Monte Carlo simulation; von Neumann-Mullins relation;
Keywords: رشد دانه; Tungsten carbide; Binderless hardmetal; Dilatometry; Grain growth; Abnormal grain growth; Sintering;
Keywords: رشد دانه; Grain boundary; Grain growth; Grain rotation; Dislocation; Molecular dynamics;
Keywords: رشد دانه; Grain growth; Finite element; Zener pinning; Simulation; Microstructure; Level set;
Keywords: رشد دانه; Annealing twin; Recrystallization; Grain growth; In situ annealing; EBSD;
Keywords: رشد دانه; Sintering; Phase-field method; Grain growth; Platelike abnormal grains; Particle size distribution
Keywords: رشد دانه; Grain growth; Growth exponent; Growth constant; Ice; Numerical simulations; Two phase
Keywords: رشد دانه; Crystal growth; Grain growth; Texturization; Phase transition; Pulsed laser deposition
Keywords: رشد دانه; Computer simulation; Grain growth; Microstructure; Topology; Phase-field method
Keywords: رشد دانه; Sintering; Phase-field method; Discrete-element method; Grain growth; Densification
Keywords: رشد دانه; Phase-field method; Grain growth; X-ray tomography; Simulation
Keywords: رشد دانه; 3-D characterization; Grain growth; Monte Carlo simulation; Titanium alloys; Topology;
Keywords: رشد دانه; Grain growth; Triple junctions; Grain size distributions; Computer simulations; Thin films
Keywords: رشد دانه; Grain growth; Triple junction drag; Computer simulation;
Keywords: رشد دانه; Nanocrystalline materials; Grain growth; Grain boundary energy; Grain boundary segregation;
Keywords: رشد دانه; Grain growth; Phase-field modeling; Textured microstructure;
Keywords: رشد دانه; Finite-difference modeling; Microstructure; Surface diffusion; Grain growth; Nanocrystalline films
Keywords: رشد دانه; Ice; Glacier; Ice sheet; Mechanics; Creep; Recrystallization; Grain growth; Microstructure; Fabric; Texture
Keywords: رشد دانه; Ice; Glacier; Ice sheet; Mechanics; Creep; Recrystallization; Grain growth; Microstructure; Fabric; Texture
Keywords: رشد دانه; Grain growth; Microindentation; Twinning; Coincidence lattice; Precession enhanced electron diffraction;
Keywords: رشد دانه; Grain growth; Inverse pinning; Phase-field simulation;
Keywords: رشد دانه; Wettability; Thermal sintering; Substrate material; Nanoparticles; Grain growth;
Keywords: رشد دانه; Sintering; Grain growth; Titania; Surface impurities;
Keywords: رشد دانه; Grain growth; Precession electron diffraction; Orientation microscopy; Coincidence lattice; Nanocrystalline thin films;
Keywords: رشد دانه; Microstructure; Grain growth; Quantitative characterization; Polycrystal; Phase field modeling;
Keywords: رشد دانه; Low-temperature oxidation; Copper; Ellipsometry; Grain growth;
Keywords: رشد دانه; EBSD; Nanostructured materials; Thermomechanical processing; Recrystallization; Grain growth;
Keywords: رشد دانه; Grain growth; Zener pinning; Phase-field modeling
Growth of B2 parent phase grain assisted by martensitic transformation in a nanocrystalline Ti-50.8Ni (at.%) shape memory alloy
Keywords: رشد دانه; Nickelâtitanium; Shape memory alloys; Martensitic phase transformation; Grain growth; Grain boundary migration;
Feasibility study of atmospheric-pressure dielectric barrier discharge treatment on CH3NH3PbI3 films for inverted planar perovskite solar cells
Keywords: رشد دانه; Atmospheric pressure plasma; Dielectric barrier discharge; Perovskite solar cell; Passivation; Grain growth;
Influence of phosphorous on nucleation and growth of grains during solidification in a NiCrFe alloy
Keywords: رشد دانه; NiCrFe alloy; Phosphorus; Segregation; Nucleation; Grain growth;
Synthesis of well-dispersed columnar Si3N4 using carbothermal reduction-nitridation method
Keywords: رشد دانه; Si3N4; Thermal applications; Grain growth;