Science and Technology of the Undercooled Melt

A. Invited Papers and Summarized Discussions.- Fundamentals of Rapid Solidification.- Role of Nucleation in Rapid Solidification.- Thermodynamics in Rapid Solidification.- Formation and Stability of Metallic Glasses.- Microstructure Formation in Rapidly Solidified Alloys.- Magnetic and Superconducting Materials.- Rapid Solidification by Laser Beam Techniques.- Continuous Products in Rapid Solidification.- The Compaction of Rapidly Solidified Materials.- Production and Characterization of Rapidly-Solidified Particulates.- Rapid Solidification Technology: The Potential for Innovative Alloy Properties.- Engineering Properties and Applications of Rapidly Solidified Materials.- B. Poster Contributions.- Thermodynamic Aspects of Glass Formation in Ni-Zr Alloys.- Thermodynamics of Chemical Ordering and Glass-Transition in Liquid Mg-Sn Alloys.- Structural Criteria for Glass Forming Ability: Application to Aluminium-Based Alloys.- Effect of the Cooling Rate on the As-Cast Fraction Crystallized.- Solidification of Amorphous Pd77,5Si16,5Cu6 in a Drop Tube.- The Formation Kinetics of PdCuSi-and PdNiP-Metallic Glasses.- Crystallization Behaviour of Ni-Nb Amorphous Alloys: Comparison of Calorimetric Results and Homogeneous Nucleation - Growth Modelling.- Nucleation and Crystallization Kinetics in GeSe2 - Sb2Te3 Systems.- Direct Thermal Measurement of Adiabatic Dendritic Coarsening.- Microstructure of Melt-Spun Al-Mo Alloys.- Microstructure of Partially Crystalline Metallic Glasses.- Theory of Microstructural Development during Rapid Solidification.- RS Aluminium - Processing and Evaluation.- Computer Controlled Pyrometric Measurement of the Cooling Rate during Melt Spinning.- The Optimization of Amorphous Materials for Toroidal Transformer Cores.- C. Concluding Statement.- General Observations and Impressions.