Keywords: رشد دندریت; Lithium metal anode; Single-layer graphene; Carbon basal plane; Lithium heterogeneous nucleation; Dendrite growth;
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Keywords: رشد دندریت; Crystal orientation; Epitaxial growth; Laser deposition; Single crystal; Dendrite growth;
Keywords: رشد دندریت; Cycle life; Dendrite growth; Structure optimization; Electrolyte management; Magnetic field; Rechargeable zinc-air battery;
Keywords: رشد دندریت; Thermal anisotropy; Dendrite growth; Grain morphology; Enthalpy method;
Keywords: رشد دندریت; Intermetallic compounds; Thermodynamic extremal principle; Rapid solidification; Undercooling; Dendrite growth;
Keywords: رشد دندریت; Extrapolation method; Phase-field; Dendrite growth; GPU computation;
Keywords: رشد دندریت; Electrolyte; Dendrite growth; Sodium protection; Sodium metal anode;
Keywords: رشد دندریت; Undercooling; Rapid solidification; Dendrite growth; Microstructure; Microhardness;
Keywords: رشد دندریت; Single crystal; Dendrite growth; Laser deposition; Stray grain; Laser surface remelting;
Keywords: رشد دندریت; Phase field; Laser welding pool; Transient conditions; Dendrite growth; Aluminum alloy;
Keywords: رشد دندریت; Numerical simulation; Dendrite growth; In-situ observation; HT-CLSM;
Keywords: رشد دندریت; Microstructure; Dendrite growth; Numerical simulation; Directional solidification;
Keywords: رشد دندریت; Electro-convection; Dendrite growth; Batteries; Smoothed particle hydrodynamics; Computational modeling;
Keywords: رشد دندریت; Computer simulations; Density functional calculations; Electrode-electrolyte interfaces; Batteries; Dendrite growth; Charging/discharging;
Keywords: رشد دندریت; Rapid solidification; Undercooling; Dendrite growth; Dendrite orientation transition; Spontaneous grain refinement;
Keywords: رشد دندریت; Solidification; Dendrite growth; Lattice Boltzmann; Cellular automaton; Parallel computing;
Keywords: رشد دندریت; LMC directional solidification; Microstructure modeling; Dendrite growth;
Keywords: رشد دندریت; Directional solidification; Liquid metal cooling; Process simulation; Dendrite growth
Keywords: رشد دندریت; Multi-component; Concentrated; Dendrite growth; Rapid solidification;
Quantitative cellular automaton model and simulations of dendritic and anomalous eutectic growth
Keywords: رشد دندریت; Cellular automaton; Height function method; Dendrite growth; Eutectic growth; Anomalous eutectic growth;
Numerical simulation of non-dendritic structure formation in Mg-Al alloy solidified with ultrasonic field
Keywords: رشد دندریت; Numerical simulation; Dendrite growth; Ultrasonic field; Mg alloy;
Development of a Para-AMR algorithm for simulating dendrite growth under convection using a phase-field-lattice Boltzmann method
Keywords: رشد دندریت; Dendrite growth; Parallel computing; Flow; Phase field; Lattice Boltzmann method;
Concentrated electrolytes based on dual salts of LiFSI and LiODFB for lithium-metal battery
Keywords: رشد دندریت; Concentrated electrolytes; Dual salts; Dendrite growth; Al corrosion; Li-metal battery;
Electrochemical corrosion and electrochemical migration of 64Sn-35Bi-1Ag solder doping with xGe on printed circuit boards
Keywords: رشد دندریت; 64Sn-35Bi-1Ag solder; Ge doping; Electrochemical corrosion behavior; Electrochemical migration; Dendrite growth;
GPU-accelerated three-dimensional phase-field simulation of dendrite growth in a nickel-based superalloy
Keywords: رشد دندریت; Dendrite growth; Nickel-based superalloy; Phase-field simulation; GPU computing;
In-situ solute measurements with a laboratory polychromatic microfocus X-ray source during equiaxed solidification of an Al-Ge alloy
Keywords: رشد دندریت; Solidification; Al-Ge alloys; Solutal concentration; In-situ X-radiography; Dendrite growth;
Cellular automaton simulation of three-dimensional dendrite growth in Al-7Si-Mg ternary aluminum alloys
Keywords: رشد دندریت; Al-7Si-Mg alloy; Cellular automaton; Three dimensions; Crystallographic orientation; Dendrite growth;
Phase field simulation of Al-Si binary dendritic growth and micro-segregation patterns under convection
Keywords: رشد دندریت; Phase field; Convection; Dendrite growth; Micro-segregation;
Phase field investigation of dendrite growth in the welding pool of aluminum alloy 2A14 under transient conditions
Keywords: رشد دندریت; Dendrite growth; Phase field (PF); Welding pool; Transient conditions; Primary dendrite arm spacing; Aluminum alloy;
Phase field model for strong interfacial energy anisotropy of HCP materials
Keywords: رشد دندریت; phase field; dendrite growth; interfacial energy; anisotropy strength; HCP materials;
In situ study the dependence of electrochemical migration of tin on chloride
Keywords: رشد دندریت; Electrochemical migration; Dendrite growth; Tin; Chloride; Thin electrolyte layer
Phenomenological model of nonequilibrium solidification
Keywords: رشد دندریت; Maximum entropy production principle; Dendrite growth
A three-dimensional cellular automaton model for dendritic growth in multi-component alloys
Keywords: رشد دندریت; Three-dimensional cellular automaton; Multi-component solidification; Thermodynamics; Dendrite growth;
Simulation of a dendritic microstructure with the lattice Boltzmann and cellular automaton methods
Keywords: رشد دندریت; Dendrite growth; Lattice Boltzmann; Cellular automaton; Solidification
Effects of RE and Sr additions on dendrite growth and phase precipitation in AZ91D magnesium alloy
Keywords: رشد دندریت; magnesium alloy AZ91D; strontium (Sr); rare earth; grain refinement; precipitation; dendrite growth;
Effect of nano-silica filler in polymer electrolyte on Li dendrite formation in Li/poly(ethylene oxide)–Li(CF3SO2)2N/Li
Keywords: رشد دندریت; Dendrite growth; Interfacial characteristic; Composite solid polymer electrolytes; Nano-SiO2 filler
Dendrite growth simulation during solidification in the LENS process
Keywords: رشد دندریت; Dendrite growth; LENS; Cellular automaton; Solidification
Study of twinned dendrite growth stability
Keywords: رشد دندریت; Bridgman solidification; Dendrite growth; Twin stability; Aluminum alloys
Formation of Sn dendrites and SnAg eutectics in a SnAgCu solder
Keywords: رشد دندریت; Soldering; Eutectic solidification; Dendrite growth; Intermetallics
Phase field modeling of dendrite growth
Keywords: رشد دندریت; Phase field modeling; Dendrite growth; Al-Si alloy; Isothermal solidification;
3D anisotropy simulation of dendrites growth with phase field method
Keywords: رشد دندریت; anisotropy; dendrite growth; crystal morphology; phase field method;
MoS2 coated with Al2O3 for Ni–MoS2/Al2O3 composite coatings by pulse electrodeposition
Keywords: رشد دندریت; 81.15.PMoS2 coated with Al2O3; Electrodeposition; Dendrite growth; Ni–MoS2/Al2O3 coating; Tribological property
Effect of non-linear liquidus and solidus in undercooled dendrite growth: A comparative study in Ni–0.7 at.% B and Ni–1 at.% Zr systems
Keywords: رشد دندریت; Dendrite growth; Undercooling solidification; Non-linear; Rapid solidification; Alloy
Rapid solidification: in situ diagnostics and theoretical modelling
Keywords: رشد دندریت; Containerless processing; Undercooling; Non-equilibrium solidification; Dendrite growth; Grain refinement; Convection;
Analysis of non-equilibrium dendrite growth in a bulk undercooled alloy melt: Model and application
Keywords: رشد دندریت; Non-equilibrium; Dendrite growth; Undercooling; Nonlinear
Reply to comments on free eutectic and dendritic solidification from undercooled metallic melts
Keywords: رشد دندریت; Rapid solidification; Eutectic growth; Dendrite growth; Undercooling;
Theoretical analysis of a synaptotropic dendrite growth mechanism
Keywords: رشد دندریت; Dendrite growth; Synapse formation; Mean-field analysis; Filopodia
Simulation of dendrite growth in ternary alloys
Keywords: رشد دندریت; Dendrite growth; Ternary alloys; Diffusion; Thermodynamics
Thermodynamic description of multi-component multi-phase alloys and its application to the solidification process
Keywords: رشد دندریت; Multi-component alloys; CALPHAD; Solute partition; Diffusion; Cooling rate; Dendrite growth; Dendrite arm coarsening;
Growth mechanism of twin-related and twin-free facet Si dendrites
Keywords: رشد دندریت; Silicon; Dendrite growth; Twin; Facet plane; Electron backscatter pattern