Description
Current interest in research of solidification of melts is focussed to understand crystal nucleation and crystal growth. They determine the solidified product with its physical properties. A detailed description of these processes lead to the development and validation of physical models, which may form the basis of quantitative modelling of solidification routes in e.g. casting and foundry processes in order to develop a predictive capability in the design of materials during solidification.
This book, based on a symposium held at EUROMAT 2003 aims to gives an overview on current developments in the research of solidification and crystallisation of liquids. The materials of interest range from metals and their alloys over semiconductors and isolators to organic substances.
Chapter
4 Scaling Relations for Dendritic Solidification in Binary Alloys
pp.:
35 – 45
5 Modeling the Spatial Phase Separation Process in Hypermonotectic Alloys
pp.:
45 – 52
6 Modeling of the Solidification of Immiscible Alloys
pp.:
52 – 62
7 Phase-Field Modeling of Dendritic Solidification: Verification for the Model Predictions with Latest Experimental Data
pp.:
62 – 70
8 Phase-Field Modeling of Phase Transitions in Ternary Alloys
pp.:
70 – 79
9 Modeling of Heat and Solute Flows during Solidification of Droplets
pp.:
79 – 88
10 Thermo-physical and Physical Properties for Use in Solidification Modelling of Multi-component Alloys
pp.:
88 – 100
11 Determination of Solidification Curves Based on DSC Experiments with Improved Heat-transfer Model
pp.:
100 – 113
12 Measurement of the Surface Tension of Undercooled Melts by the Oscillating Drop Method in an Electrostatic Levitator
pp.:
113 – 121
13 Liquid-liquid Interfacial Tension and Wetting in Immiscible Al-based Systems
pp.:
121 – 128
14 In-Situ Optical Determination of Fraction Solid
pp.:
128 – 137
15 Magnetic Effects on the Nucleation in Undercooled Co-Pd Melts
pp.:
137 – 146
16 Identification of the Substrate of Heterogeneous Nucleation in Zn-Al Alloy Inoculated with ZnTi-Based Master Alloy
pp.:
146 – 155
17 Undercooling and Solidification of Liquid Silicon
pp.:
155 – 166
18 Two-Phase Equilibrium in Binary Alloy Nano Particles
pp.:
166 – 175
19 Three-dimensional Reconstruction of Experimentally Grown Xenon Dendrites
pp.:
175 – 184
20 Mechanically Deformed Primary Dendritic Structures Observed During the Solidification of Undercooled Melts
pp.:
184 – 193
21 Effect of Hydrodynamics on Microstructure Evolution of Nd-Fe-B Alloys
pp.:
193 – 203
22 Effect of the Fluid Convection Driven by a Rotating Magnetic Field on the Solidification of a PbSn Alloy
pp.:
203 – 212
23 Grain Sedimentation and Melt Convection Phenomena During Globular Equiaxed Solidification
pp.:
212 – 222
24 Metastable Primary Soldification Modes in the Fe-Cr-Ni System During Laser Welding
pp.:
222 – 231
25 Crystallization of the Nd(2)Fe(14)B Peritectic Phase from the Undercooled Melt by Containerless Processing
pp.:
231 – 245
26 Thermomagnetic Analyses of Nd-Fe-B Bulk Alloys Solidified from the Undercooled Melt
pp.:
245 – 257
27 Analysis of the Solidification Microstructure of Multi-component Gamma Titanium Aluminide Alloys
pp.:
257 – 268
28 Formation of Eutectic Cells in Ternary Al-Cu-Ag Alloys
pp.:
268 – 277
29 Lamellar Pattern Formation during 2D-Directional Solidification of Ternary Eutectic Alloys
pp.:
277 – 289
30 Simulation of Stray Grain Formation in Investment Cast Turbine Blades
pp.:
289 – 298
31 Laser Cladding Applications to Combinatorial Materials Science
pp.:
298 – 308
32 Control of Morphological Features in Micropatterned Ultrathin Films
pp.:
308 – 318
Author Index
pp.:
318 – 329
Subject Index
pp.:
329 – 331
Solidification and Crystallization
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