Keywords: رشد دانه; Grain growth; Bulk diffusion; Simulations; Phase field model;
مقالات ISI رشد دانه (ترجمه نشده)
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در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: رشد دانه; In-situ TEM; Molecular dynamics; Grain growth; Electron wind force; Grain boundary;
Keywords: رشد دانه; Flash sintering; Alumina; Grain growth; E-field; F-centers;
Keywords: رشد دانه; Sintering; Grain growth; Dilatometry; Densification kinetics; Regression method;
Keywords: رشد دانه; Grain growth; Grain boundary migration; Thermodynamics; Kinetics; Translational motion of grains;
Keywords: رشد دانه; Grain growth; Hillert distribution; Simulation and modeling;
Keywords: رشد دانه; Grain growth; Hydrogen; Vanadium;
Keywords: رشد دانه; Iron; Nanocrystalline materials; Ball milling; Zener pinning; Grain growth; Thermal stability;
Keywords: رشد دانه; Uranium nitride; SPS; Accident tolerant fuel; Grain growth;
Keywords: رشد دانه; Microstructural evolution; Grain growth; Phase-field method; Molecular dynamics;
Keywords: رشد دانه; ZnO; Sintering mechanism; Densification; Grain growth; Micron-sized rod; Ng/Nb factor;
Keywords: رشد دانه; Grain growth; High temperature; Fertilisation; Triticum aestivum; Yield components;
Keywords: رشد دانه; Alumina; Oxides; Ion irradiation; Irradiation effects; Grain growth;
Keywords: رشد دانه; Abnormal grains; Size advantage; Transient phenomena; Phase-field; Grain growth;
Keywords: رشد دانه; Monte Carlo; Magnetic annealing; Mesoscale; Material point; Microstructure evolution; Grain growth; Texture evolution;
Keywords: رشد دانه; Additive manufacturing; Beam focus; Track shape; Grain growth;
Keywords: رشد دانه; Nanocrystalline material; Spatial grain size gradient; Grain growth; Grain boundary; Monte Carlo simulation;
Keywords: رشد دانه; Sintering; Multiphysics modeling; Phase field modeling; Grain growth;
Keywords: رشد دانه; Metal additive manufacturing; Selective laser melting; Grain growth; Solidification; Numerical simulation; Cellular automata; Evolution of grain structure;
Keywords: رشد دانه; Interstitial-free (IF) steel; Differential speed rolling; Annealing; Grain growth;
Keywords: رشد دانه; Grain; Grain boundary; Grain coalescence; Grain growth; Phase field model;
Keywords: رشد دانه; Boron carbide; Twins; Grain growth;
Keywords: رشد دانه; Ultrasonic welding; Nanocrystalline alloys; Grain growth; Process design; Frictional heating;
Keywords: رشد دانه; Molecular dynamics simulations; Grain growth; Nucleation; Solidification; Large-scale simulation;
Keywords: رشد دانه; Tungsten carbide cobalt (WC-Co); Densification; Grain growth; Master sintering curve; Grain size optimization;
Keywords: رشد دانه; Grain growth; Grain topology; Volumetric growth rate; Simulations;
Keywords: رشد دانه; Interface stiffness tensor; Grain boundary stiffness; Grain boundary faceting; Grain growth; Σ3 grain boundary;
Keywords: رشد دانه; Additive manufacturing; Reduced order modeling; Process modeling; Grain growth; Process-structure-property;
Keywords: رشد دانه; Heterogeneous nucleation; Grain growth; Directional solidification; Grain refinement; Al alloys;
Keywords: رشد دانه; Recrystallization; Twin boundary; Grain boundaries; EBSD; Grain growth;
Keywords: رشد دانه; Superalloy 718; Grain growth; Microstructure; Modeling;
Keywords: رشد دانه; Grain growth; Grain growth inhibitor; Grain growth inhibition; Hardmetal; Cemented carbide; Mechanical properties; Nanocrystalline WC-Co;
Keywords: رشد دانه; Grain growth; Grain boundary energy; Finite element; Level-set; Triple junction; Modelling;
Keywords: رشد دانه; Nanocrystalline materials; Annealing twin; Grain growth; Thin films; Orientation mapping;
Keywords: رشد دانه; nickel; recrystallization; grain growth; accumulative roll bonding;
Keywords: رشد دانه; Nanoparticles; Oxidation kinetics; Core-shell model; Diffusion; Grain growth;
Keywords: رشد دانه; Superelasticity; Martensitic transformation; Iron-based shape memory alloys; Stress induced martensite; Grain growth;
Keywords: رشد دانه; low temperature solid oxide fuel cells; nanoporous cathode; platinum nickel alloy; grain growth; thermal agglomeration;
Keywords: رشد دانه; Grain growth; Thin film; Nanocrystalline; Fatigue; Damage;
Keywords: رشد دانه; olivine; crystallographic preferred orientation; grain growth; seismic anisotropy; mantle lithosphere;
Keywords: رشد دانه; Grain growth; Grain boundary; Coherent precipitate; Particle pinning; Phase-field-crystal model;
Keywords: رشد دانه; Silicon carbide; Thermal conductivity; Grain growth; Lattice oxygen content;
Keywords: رشد دانه; Phase-field-crystal; Grain boundary; Coupled motion; Microcrack; Grain growth;
Keywords: رشد دانه; Severe plastic deformation; Low cycle fatigue; Cyclic softening; Grain growth; Grain boundary migration;
Keywords: رشد دانه; Grain growth; Cellular network; Statistical self-similarity; Topological transitions; Monte Carlo simulation;
Keywords: رشد دانه; Sintering; Spark plasma sintering; Tungsten; Densification mechanism; Grain growth;
Keywords: رشد دانه; Diffusion; Grain growth; Nanocrystalline material; Cellular Automata; Monte Carlo;
Keywords: رشد دانه; Herring condition; Grain boundary junction; Grain growth;
Keywords: رشد دانه; Tungsten carbide; Dilatometry; Grain growth; Cr3C2; WC-Co; Nanoscaled; Ultrafine hardmetals;
Keywords: رشد دانه; Grain boundary engineering; Electron backscatter diffraction; Grain boundary character distribution; Recrystallization; Grain growth; Nickel-based alloy 825;