Add to ORKGThe solidification behavior of gold-silicon alloys containing up to 25 at. % silicon was studied, and a mathematical model of gravity segregation during solidification was developed. A background of knowledge is provided which can be used in the design of zero gravity solidification experiments to be carried out in the 300-ft drop tower, in Aerobee rockets and in future space missions. Such experiments are needed to develop the basic scientific knowledge required for the design of economically viable space manufacturing processes. Some preliminary zero gravity experiments were carried out on a gold-25 at. % silicon alloy using the drop tower facility
International audienceDuring ground-based solidification, buoyancy flow can develop by the density d...
Conclusions of the team of specialists can be generalized as: (1) Brazing and welding of metal struc...
A Get Away Special (GAS) experiment payload to investigate microgravity effects on solidification ph...
The processing of nickel-silver alloy specimens in space is discussed. Four specimens were melted on...
Solidification processes and phenomena, segregation, porosity, gravity effects, fluid flow, undercoo...
A space shuttle experiment employing the General Purpose (Rocket) Furnace (GPF) in its isothermal mo...
The preliminary design of two series of simple experiments the objectives of which are to determine ...
Highly segregated macrostructures tend to develop during processing of hypermonotectic alloys becaus...
Candidate materials and space environment effects on crystal growth and other solidification process...
The generalized problem of determining the temperature and solute concentration profiles during dire...
Adhesion of the melted metals to the adjacent solid metals, and cohesion of the liquid metal to itse...
AbstractUnder terrestrial conditions, solidification processes are often affected by gravity effects...
International audienceUnder terrestrial conditions, solidification processes are often affected by g...
International audienceDuring ground-based solidification, buoyancy flow can develop by the density d...
Under normal one-g conditions immiscible alloys segregate extensively during solidification due to s...
International audienceDuring ground-based solidification, buoyancy flow can develop by the density d...
Conclusions of the team of specialists can be generalized as: (1) Brazing and welding of metal struc...
A Get Away Special (GAS) experiment payload to investigate microgravity effects on solidification ph...
The processing of nickel-silver alloy specimens in space is discussed. Four specimens were melted on...
Solidification processes and phenomena, segregation, porosity, gravity effects, fluid flow, undercoo...
A space shuttle experiment employing the General Purpose (Rocket) Furnace (GPF) in its isothermal mo...
The preliminary design of two series of simple experiments the objectives of which are to determine ...
Highly segregated macrostructures tend to develop during processing of hypermonotectic alloys becaus...
Candidate materials and space environment effects on crystal growth and other solidification process...
The generalized problem of determining the temperature and solute concentration profiles during dire...
Adhesion of the melted metals to the adjacent solid metals, and cohesion of the liquid metal to itse...
AbstractUnder terrestrial conditions, solidification processes are often affected by gravity effects...
International audienceUnder terrestrial conditions, solidification processes are often affected by g...
International audienceDuring ground-based solidification, buoyancy flow can develop by the density d...
Under normal one-g conditions immiscible alloys segregate extensively during solidification due to s...
International audienceDuring ground-based solidification, buoyancy flow can develop by the density d...
Conclusions of the team of specialists can be generalized as: (1) Brazing and welding of metal struc...
A Get Away Special (GAS) experiment payload to investigate microgravity effects on solidification ph...