Structure and Dynamics of Partially Solidified Systems

1. Experimental Evidence.- Local Convective Flows in Partly Solidified Alloys.- Evolution of Lengthscales in Partially Solidified Systems.- Various Aqueous Solutions Crystallizing from the Side.- Double Diffusive Convection During Solidification at a Vertical Wall.- 2. Phase Change and Crystal Growth.- Nonlinear Analyses of Phase Change and Crystal Growth Phenomena.- Global Asymptotic Solution for Axisymmetric Dendrite Growth with Small Undercooling.- Some Aspects of the Stefan Model for Phase Transitions.- Some Aspects of the Weakly Nonlinear Theory of the Morphological Instability.- Phase Field Models of Free Boundary Problems: Exterior Boundaries Higher Order Equations and Anisotropy.- The Numerical Solution of Phase Change Problems.- 3. Theories of Slurries and Mushy Zones.- Theories of Mushy Zones: Applications to Alloy Solidification, Magma Transport, Frost Heave and Igneous Intrusions.- On Crystalization of a Binary Alloy Capable of Forming a Eutectic Mixture.- Dynamical Processes in Slurries.- A Boussinesq Model of a Slurry.- 4. Application to Magmatic and Aqueous Systems.- Towards Scaling Laws for the Interpretation of Igneous Structures.- Constitutional Zone Refining of Magmatic Intrusions.- The Role of Conjugate Convection in Magmatic Heat and Mass Transfer.- Melt Stability and Compaction in a Partially MoltenSilicate Layer Heated from Below.- Melt Migration in Deformable Media.- Crystallization Shrinkage in the Region of Partial Solidification: Implications for Silicate Melts.- Morphology, Microstructure and Micromechanics of Ice Fields.- Slush on Lakes.- A Bibliography of Partially Solidified Systems.