Mostrando 4 resultados de: 4
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Journal of Crystal Growth(2)
Computational Materials Science(1)
IOP Conference Series: Materials Science and Engineering(1)
Origen
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GPU phase-field lattice Boltzmann simulations of growth and motion of a binary alloy dendrite
Conference ObjectAbstract: A GPU code has been developed for a phase-field lattice Boltzmann (PFLB) method, which can simulatePalabras claves:Autores:Aoki T., Ohno M., Roberto C. Rojas Molina, Roberto Rojas, Shimokawabe T., Takaki T.Fuentes:googlescopusMulti-GPUs parallel computation of dendrite growth in forced convection using the phase-field-lattice Boltzmann model
ArticleAbstract: Melt flow drastically changes dendrite morphology during the solidification of pure metals and alloyPalabras claves:A1. Computer simulation, A1. Convection, A1. Crystal morphology, A1. DendritesAutores:Aoki T., Ohno M., Roberto C. Rojas Molina, Roberto Rojas, Sakane S., Shibuta Y., Shimokawabe T., Takaki T.Fuentes:googlescopusPhase-field lattice Boltzmann simulations of multiple dendrite growth with motion, collision, and coalescence and subsequent grain growth
ArticleAbstract: In the formation of a typical equiaxed structure during the solidification of metals and alloys, mulPalabras claves:convection, Equiaxed structure, lattice Boltzmann method, Multiple dendrites, Phase-field method, solidificationAutores:Ohno M., Roberto C. Rojas Molina, Roberto Rojas, Sato R., Shibuta Y., Takaki T.Fuentes:googlescopusPhase-field-lattice Boltzmann studies for dendritic growth with natural convection
ArticleAbstract: Simulating dendritic growth with natural convection is challenging because of the size of the computPalabras claves:A1. Computer simulation, A1. Convection, A1. Crystal morphology, A1. DendritesAutores:Aoki T., Ohno M., Roberto C. Rojas Molina, Roberto Rojas, Sakane S., Shibuta Y., Shimokawabe T., Takaki T.Fuentes:googlescopus