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Materials science & engineering. B, Solid-state materials for advanced technology, ISSN 0921-5107, 2011, Volume 176, Issue 3, pp. 217 - 226
Journal Article
Journal of crystal growth, ISSN 0022-0248, 2016, Volume 439, pp. 40 - 46
The evolution of grain structures, especially the types of grain boundaries (GBs), during directional solidification is crucial to the electrical properties of multicrystalline silicon used for solar cells... 
A1. Solidification | A1. Nucleation | A1. Planar defects | B2. Semiconducting silicon | PHYSICS, APPLIED | Nucleation | SOLAR-CELLS | MELT | ZONE | MATERIALS SCIENCE, MULTIDISCIPLINARY | POLYCRYSTALLINE SILICON | ORIENTATIONS | CRYSTALLOGRAPHY | Planar defects | MULTI-CRYSTALLINE SILICON | Solidification | GROWTH | STRING RIBBON | Semiconducting silicon | Grain boundaries | Silicon | Semiconductor wafers | Directional solidification | Grains | Wafers | Evolution | Drift | Orientation | Grain structure
Journal Article
Computational materials science, ISSN 0927-0256, 2019, Volume 163, pp. 176 - 185
[Display omitted] Formation of solidification defects and their evolution in uniaxial tensile deformation of solidified polycrystalline aluminum (Al... 
Molecular dynamics | Deformation mechanics | Polycrystalline aluminum | Solidification | Defects | MATERIALS SCIENCE, MULTIDISCIPLINARY | NANOCRYSTALLINE | FCC METALS | MOLECULAR-DYNAMICS SIMULATION | MECHANICAL-PROPERTIES | ANNEALING TWINS | GRAIN-GROWTH | DENDRITE GROWTH | REAL-TIME OBSERVATION | NUCLEATION
Journal Article
Journal of Crystal Growth, ISSN 0022-0248, 03/2014, Volume 390, pp. 96 - 100
Journal Article
Journal of Crystal Growth, ISSN 0022-0248, 02/2014, Volume 387, pp. 10 - 15
Development of grain structures of multi-crystalline silicon from small spherical seeds with random orientations in directional solidification was investigated... 
B2. Silicon | A3. Grain growth | A3. Twin boundaries | A1. Directional solidification | PHYSICS, APPLIED | SOLAR-CELLS | Directional solidification | Grain growth | MELT | MATERIALS SCIENCE, MULTIDISCIPLINARY | POLYCRYSTALLINE SILICON | CRYSTALLOGRAPHY | Twin boundaries | SIGE | COMPETITION | TWINNING OCCURRENCE | GROWTH-BEHAVIOR | Silicon | IN-SITU OBSERVATIONS | Analysis | Seeds
Journal Article
Materials science & engineering. A, Structural materials : properties, microstructure and processing, ISSN 0921-5093, 2018, Volume 712, pp. 127 - 132
.... Three compositions were subjected to transient directional solidification: Zn-10, 20 and 40wt%Sn. Grainy-faceted cleavage has been observed as the predominant mode of fracture, which propagated across the Zn-rich plate cells... 
Mechanical properties | Zn-Sn alloys | Fracture | Eutectic | Solidification | LEAD-FREE SOLDER | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | POLYCRYSTALLINE ZINC | GROWTH | NANOSCIENCE & NANOTECHNOLOGY
Journal Article
by Hu, Yan and Hao, Hai
International Journal of Heat and Mass Transfer, ISSN 0017-9310, 07/2019, Volume 137, pp. 1221 - 1231
•We firstly devised a continuous casting apparatus of multi-crystalline silicon.•Simulation was realized for solidification structure of a silicon billet... 
Continuous casting | Numerical simulation | Multi-crystalline silicon | Solidification structure | Different parameter
Journal Article
CrystEngComm, ISSN 1466-8033, 2018, Volume 20, Issue 25, pp. 3569 - 3580
Journal Article
Computational materials science, ISSN 0927-0256, 2019, Volume 163, pp. 37 - 49
....•Grain behaviors after solidification can be simulated by vector-valued model. The vector-valued phase field model is computationally convenient to handle anisotropic... 
Dendritic growth | Polycrystalline solidification | Operator splitting method | Phase field | Grain boundary | Grain coarsening | DENDRITIC SOLIDIFICATION | APPROXIMATION | MATERIALS SCIENCE, MULTIDISCIPLINARY | STRONG DISCONTINUITY PROBLEMS | SIMULATION | PARTICLE DIFFERENCE METHOD | WEAK | GROWTH | DYNAMICS
Journal Article
Computational materials science, ISSN 0927-0256, 2019, Volume 159, pp. 432 - 439
[Display omitted] We present a cellular automata model for computing the grain evolution during directional solidification of silicon on a meso-scopic scale... 
Cellular automata | Directional solidification | Multicrystalline silicon | Lattice Boltzmann methods | HEAT-TRANSFER | MELT | MATERIALS SCIENCE, MULTIDISCIPLINARY | GROWTH | POLYCRYSTALLINE SILICON | MODEL | MULTI-CRYSTALLINE SILICON | Silicon | Twins | Analysis | Robots | Material chemistry | Chemical Sciences
Journal Article
Journal of Crystal Growth, ISSN 0022-0248, 10/2017, Volume 475, pp. 150 - 157
Journal Article
Progress in Photovoltaics: Research and Applications, ISSN 1062-7995, 06/2010, Volume 18, Issue 4, pp. 265 - 271
...‐crystalline silicon (mc‐Si) growth for solar cells. The method employed an active cooling spot to induce initial dendrite growth, and the solidification front was controlled to be slightly convex through crucible insulation... 
grain growth | semiconducting silicon | semiconducting materials | solar cells | directional solidification | Solar cells | Semiconducting materials | Semiconducting silicon | Directional solidification | Grain growth | INGOTS | PHYSICS, APPLIED | MELT | ENERGY & FUELS | BEHAVIOR | POLYCRYSTALLINE SILICON | IN-SITU OBSERVATIONS
Journal Article