Add to ORKGThis grant, NAG8-831, was a continuation of a previous grant, NAG8-541. The long range goal of this program has been to develop an improved understanding of phenomena of importance to directional solidification, in order to enable explanation and prediction of differences in behavior between solidification on Earth and in space. Emphasis in the recently completed grant was on determining the influence of perturbations on directional solidification of InSb and InSb-GaSb alloys. In particular, the objective was to determine the influence of spin-up/spin-down (ACRT), electric current pulses and vibrations on compositional homogeneity and grain size
Alloys solidified in a low-gravity environment can, due to the elimination of sedimentation and conv...
Within the framework of the proposed research, emphasis was placed on application of magnetic fields...
Our long term goal is to develop techniques to achieve detached solidification reliably and reproduc...
The long range goal of this program is to develop an improved understanding of phenomena of importan...
The overall objective of this program is to develop an improved understanding of some phenomena of i...
The objective of this work is to approach the problem of determining the transport conditions (and e...
The results of compositional and microstructural analysis of solidified ingots are discussed. In the...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 1997.Includ...
Directional solidification (DS) is the process of solidifying a metal alloy from one end to another ...
Solidification is taking place in industrial applications ranging from casting, welding, soldering t...
The purpose of this research is to examine the dendrite array morphology, macrosegregation, and defe...
A study of directional solidification of a weak binary alloy (specifically, Bi - 1 at% Sn) based on ...
Purpose of this study was to examine the microstructural evolution of primary dendrites during Gradi...
The effects of applying a 0.2-T transverse magnetic field on a solidifying Ga-25 wt%In alloy have be...
The effects of applying a 0.2-T transverse magnetic field on a solidifying Ga-25 wt%In alloy have be...
Alloys solidified in a low-gravity environment can, due to the elimination of sedimentation and conv...
Within the framework of the proposed research, emphasis was placed on application of magnetic fields...
Our long term goal is to develop techniques to achieve detached solidification reliably and reproduc...
The long range goal of this program is to develop an improved understanding of phenomena of importan...
The overall objective of this program is to develop an improved understanding of some phenomena of i...
The objective of this work is to approach the problem of determining the transport conditions (and e...
The results of compositional and microstructural analysis of solidified ingots are discussed. In the...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 1997.Includ...
Directional solidification (DS) is the process of solidifying a metal alloy from one end to another ...
Solidification is taking place in industrial applications ranging from casting, welding, soldering t...
The purpose of this research is to examine the dendrite array morphology, macrosegregation, and defe...
A study of directional solidification of a weak binary alloy (specifically, Bi - 1 at% Sn) based on ...
Purpose of this study was to examine the microstructural evolution of primary dendrites during Gradi...
The effects of applying a 0.2-T transverse magnetic field on a solidifying Ga-25 wt%In alloy have be...
The effects of applying a 0.2-T transverse magnetic field on a solidifying Ga-25 wt%In alloy have be...
Alloys solidified in a low-gravity environment can, due to the elimination of sedimentation and conv...
Within the framework of the proposed research, emphasis was placed on application of magnetic fields...
Our long term goal is to develop techniques to achieve detached solidification reliably and reproduc...