Add to ORKGThis reports on the MEPHISTO-4 experiment on the Space Shuttle Columbia, STS-87, November 19-December 5, 1997. Involved were NASA; the University of Florida at Gainesville; groups from France that developed and built the furnace; the National Institute of Standards and Technology; The University of New South Wales, Australia; and Purdue University. This was a solidification study in which three long rods of Bismuth- 1 at.% Tin were directionally solidified. The goals were to solidify in an environment free of natural convection; to determine the relationship among solidification growth velocity, growth mode, and temperature; and determine the diffusivity of Sn in Bi. The flight samples grew with a planar solid/liquid interface at velocities...
The Materials Science Laboratory is a unique tool designed to perform high temperature experiments f...
International audienceA solidification benchmark experiment was designed and developed at SIMAP Labo...
Bridgman and Float-zone crystal growth experiments are planned for NASA's First Materials Science Re...
The shuttle flight experiment "In Situ Monitoring of Crystal Growth Using MEPHISTO" was accomplished...
The solidification of a dilute alloy (bismuth-tin) under Bridgman crystal growth conditions is inves...
The objective of this work is to approach the problem of determining the transport conditions (and e...
The MEPHISTO space experiments are collaborative United States and French investigations aimed at un...
The solidification of a dilute alloy (bismuth-tin) under Bridgman crystal growth conditions is inves...
International audienceWe combine an effective diffusivity model with a numerical approach initially ...
A pre-flight analysis of the directional solidification of BiSn with MEPHISTO-4 is presented. Simpli...
The solidification of two binary alloys, In-10Sn and Sn-13Pb, has been investigated by X-ray diffrac...
We observed melt-growth process of Bi and Sn thin films by in-situ transmission electron microscopy....
Zone melting is one of the main techniques for preparing bismuth telluride-based crystal thermoelect...
A model for directional solidification in dilute binary alloys is presented. The energy equation is ...
A review of experiments on crystal growth from melt in nearly zero gravity environments in space is ...
The Materials Science Laboratory is a unique tool designed to perform high temperature experiments f...
International audienceA solidification benchmark experiment was designed and developed at SIMAP Labo...
Bridgman and Float-zone crystal growth experiments are planned for NASA's First Materials Science Re...
The shuttle flight experiment "In Situ Monitoring of Crystal Growth Using MEPHISTO" was accomplished...
The solidification of a dilute alloy (bismuth-tin) under Bridgman crystal growth conditions is inves...
The objective of this work is to approach the problem of determining the transport conditions (and e...
The MEPHISTO space experiments are collaborative United States and French investigations aimed at un...
The solidification of a dilute alloy (bismuth-tin) under Bridgman crystal growth conditions is inves...
International audienceWe combine an effective diffusivity model with a numerical approach initially ...
A pre-flight analysis of the directional solidification of BiSn with MEPHISTO-4 is presented. Simpli...
The solidification of two binary alloys, In-10Sn and Sn-13Pb, has been investigated by X-ray diffrac...
We observed melt-growth process of Bi and Sn thin films by in-situ transmission electron microscopy....
Zone melting is one of the main techniques for preparing bismuth telluride-based crystal thermoelect...
A model for directional solidification in dilute binary alloys is presented. The energy equation is ...
A review of experiments on crystal growth from melt in nearly zero gravity environments in space is ...
The Materials Science Laboratory is a unique tool designed to perform high temperature experiments f...
International audienceA solidification benchmark experiment was designed and developed at SIMAP Labo...
Bridgman and Float-zone crystal growth experiments are planned for NASA's First Materials Science Re...