Keywords: رشد دانه; Nanocrystalline Al-Zr alloys; Mechanical alloying; Thermal stability; Miedema's semi-empirical model; Grain growth;
مقالات ISI رشد دانه (ترجمه نشده)
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Keywords: رشد دانه; Molecular dynamics; Nanocrystalline structure; Aluminum alloys; Plastic deformation; Grain boundaries; Grain growth;
Keywords: رشد دانه; Five-fold twins; Annealing twin; Grain growth; Molecular dynamics; Nanocrystalline; Disclination;
Keywords: رشد دانه; Grain growth; Mean-field model; Statistical mechanics; Coarsening dynamics;
Keywords: رشد دانه; Polycrystalline microstructures; Grain growth; Monte Carlo simulation; Relaxation; Transient regime
Keywords: رشد دانه; Grain growth; Thin films; Polycrystalline microstructures; 3D study; Potts model;
Keywords: رشد دانه; Phase transition; Grain growth; Nanostructured alloys; Microstructure;
Keywords: رشد دانه; Nickel-base superalloy; Dynamic recrystallization; Meta-dynamic recrystallization; Grain growth; Finite element method
Keywords: رشد دانه; Grain growth; Bulk diffusion; Simulations; Phase field model; Particle-like grain migration;
Keywords: رشد دانه; Grain boundary; Grain growth; Complexion; Diffusion;
Keywords: رشد دانه; Copper; Grain growth; Hardness; High-pressure torsion; Self-annealing;
Keywords: رشد دانه; Kinetic model; Grain growth; Diffusion; Reverse diffusion; Growth-decay; Non-equilibrium process;
Keywords: رشد دانه; Nanocrystalline material; Tungsten; Sintering; Grain growth; Ultrafine grain;
Keywords: رشد دانه; Polycrystalline materials; Grain growth; Grain boundary; Fiber texture; Energy anisotropy; Number-weighted misorientation distribution function; Length-weighted misorientation distribution function; Boltzmann-type kinetic model;
Keywords: رشد دانه; Recrystallization; Grain growth; Grain boundary segregation; Texture; Atom probe tomography;
Keywords: رشد دانه; Ultrasonic welding; Modeling; Microstructure; Dynamic Recrystallization; Grain Growth;
Keywords: رشد دانه; Sintering; Phase field modeling; Consolidation; Diffusion; Grain growth;
Keywords: رشد دانه; High power ultrasonic spot welding; Aluminium 6111-T4; Dynamic recrystallization; Grain growth; EBSD; Texture;
Keywords: رشد دانه; Grain growth; Polycrystalline thin film; Constitutive modeling; Numerical simulations; Phase-field method; Finite element method;
Keywords: رشد دانه; Annealing; Nanocrystalline material; Oxides; Grain growth
Keywords: رشد دانه; Grain growth; Nanocrystalline material; Junction control; von Neumann–Mullins-relation
Keywords: رشد دانه; Heterostructures; Grain growth; Nanostructure; Spark plasma sintering; Ordered coalescence of nanocrystals;
Keywords: رشد دانه; Arrhenius equation; Activation energy; Diffusion; Grain growth; Thermal properties;
Keywords: رشد دانه; Nano tungsten (nano-W); High green density compaction; DBTT; Grain growth; Fusion reactors
Keywords: رشد دانه; Nanocrystalline; Inverse Hall-Petch relation; Grain growth;
Keywords: رشد دانه; Zirconium diboride; Hot pressing; Microstructure; Densification; Grain growth; Taguchi method
Keywords: رشد دانه; Nanostructured materials; Mechanical alloying; Hardness measurement; Recovery; Grain growth; Dislocations;
Keywords: رشد دانه; Silicon carbide; Electrical properties; Grain growth; Hot-pressing; Microstructure;
Keywords: رشد دانه; Cellular automata; Microstructure; Modelling; Interface energy; Grain growth; Morphology;
Keywords: رشد دانه; Grain growth; Grain size distribution; Self-similar regime; Mean field theory; Phase field simulation;
Keywords: رشد دانه; Grain growth; Monte Carlo simulation; Three dimensions; Kinetics; Stereology;
Keywords: رشد دانه; electrodeposition; nanocrystalline nickel; flexible friction; thermal stability; grain growth;
Keywords: رشد دانه; Titanium alloy; Laser deposition; Laser additive manufacturing; Nucleation; Grain growth; Solidification;
Keywords: رشد دانه; Slurry concentration; Agglomeration; Densification; Grain growth; Transmittance
Keywords: رشد دانه; Alumina; Doping; Grain growth; Hot isostatic pressing; In-line transmission
Keywords: رشد دانه; Tungsten carbide; Binderless hardmetal; Dilatometry; Grain growth; Abnormal grain growth; Sintering;
Keywords: رشد دانه; Grain growth; Solidification; Mesh anisotropy; Cellular automata;
Keywords: رشد دانه; Grain growth; Level set; Triple junction mobility; Grain boundary energy;
Keywords: رشد دانه; Computer simulation; Monte Carlo method; Cellular automata method; Grain growth;
Keywords: رشد دانه; Steel; Thermomechanical processing; Dislocations; Grain growth; Recrystallization; 2D Monte Carlo simulation;
Keywords: رشد دانه; Modeling; Dynamic recrystallization; Post dynamic recrystallization; Grain growth; Nucleation; 304L steel;
Keywords: رشد دانه; Coarsening; Ostwald ripening; Grain growth; Size distribution function; Envelope;
Keywords: رشد دانه; Grain growth; Grain boundary migration; Grain rotation; Second-phase particles; Grain boundary segregation
Keywords: رشد دانه; Grain growth; Monte Carlo method; MC simulations; Computer simulation
Keywords: رشد دانه; Grain boundary segregation; Grain growth; Phase field model; Thermodynamic stability; Nanocrystalline materials;
Keywords: رشد دانه; Grain size evolution; Ductile deformation; Numerical model; Piezometer; Grain growth; Dynamic recrystallisation
Keywords: رشد دانه; Phase-field method; Crystal plasticity; Grain growth; Recrystallization
Keywords: رشد دانه; Mechanical properties testing; Grain boundary diffusion; Grain growth; Ceria tetragonal zirconia
Keywords: رشد دانه; Transmission electron microscopy (TEM); Grain growth; Nanocrystalline metal; Thin films
Keywords: رشد دانه; CeO2; Nanocrystalline ceramic oxide; Grain growth; Molecular dynamics simulation; Radiation damage