Modelling directional solidification
Abstract
The long range goal is to develop an improved understanding of phenomena of importance to directional solidification, to enable explanation and prediction of differences in behavior between solidification on Earth and in space. Emphasis during the period of this grant was on experimentally determining the influence of convection and freezing rate fluctuations on compositional homogeneity and crystalline perfection in the vertical Bridgman-Stockbarger technique. Heater temperature profiles, buoyancy-driven convection, and doping inhomogeneties were correlated using naphthalene doped with azulene. In addition the influence of spin-up/spin-down on compositional homogeneity and microstructure of indium gallium antimonide and the effect of imposed melting-freezing cycles on indium gallium antimonide are discussed.
- Publication:
-
Final Report
- Pub Date:
- February 1990
- Bibcode:
- 1990cupn.rept.....W
- Keywords:
-
- Buoyancy;
- Convection;
- Crystallinity;
- Directional Solidification (Crystals);
- Microstructure;
- Additives;
- Azulene;
- Doped Crystals;
- Freezing;
- Gallium Antimonides;
- Heaters;
- Homogeneity;
- Indium Antimonides;
- Microgravity Applications;
- Naphthalene;
- Space Commercialization;
- Temperature Profiles;
- Solid-State Physics