Abstract Space levitation processing allows researchers to conduct benchmark tests in an effort to understand the physical phenomena involved in rapid solidification processing, including alloy thermodynamics, nucleation and growth, heat and mass transfer, solid/liquid interface dynamics, macro- and microstructural evolution, and defect formation. Supported by ground-based investigations, a major thrust is to develop and refine robust computational tools based on theoretical and applied approaches. This work is accomplished in conjunction with experiments designed for precise model validation with application to a broad range of industrial processes
Electromagnetic levitation (EML) is a technique for containerless processing. The unique environment...
International audienceContainerless processing of droplets and drops by atomization and electromagne...
International audienceContainerless processing of droplets and drops by atomization and electromagne...
Transitions from the liquid to the solid state of matter are omnipresent. They form a crucial step i...
Transitions from the liquid to the solid state of matter are omnipresent. They form a crucial step i...
This paper reviews investigations by the authors on thermophysical properties and solidification beh...
Electromagnetic levitation is used for containerless undercooling and solidification both on Earth a...
Bringing together the leading international researchers in the field, this decisive reference explai...
Bringing together the leading international researchers in the field, this decisive reference explai...
Bringing together the leading international researchers in the field, this decisive reference explai...
The electromagnetic levitation facility EML on board the ISS is a powerful tool for investigation of...
During rapid solidification, a molten sample is cooled below its equilibrium solidification temperat...
Containerless processing of droplets and drops by atomization and electromagnetic levitation are app...
Electromagnetic levitation under microgravity provides unique opportunities for the investigation of...
A major reason to conduct solidification experiments in space is that the unique conditions accessib...
Electromagnetic levitation (EML) is a technique for containerless processing. The unique environment...
International audienceContainerless processing of droplets and drops by atomization and electromagne...
International audienceContainerless processing of droplets and drops by atomization and electromagne...
Transitions from the liquid to the solid state of matter are omnipresent. They form a crucial step i...
Transitions from the liquid to the solid state of matter are omnipresent. They form a crucial step i...
This paper reviews investigations by the authors on thermophysical properties and solidification beh...
Electromagnetic levitation is used for containerless undercooling and solidification both on Earth a...
Bringing together the leading international researchers in the field, this decisive reference explai...
Bringing together the leading international researchers in the field, this decisive reference explai...
Bringing together the leading international researchers in the field, this decisive reference explai...
The electromagnetic levitation facility EML on board the ISS is a powerful tool for investigation of...
During rapid solidification, a molten sample is cooled below its equilibrium solidification temperat...
Containerless processing of droplets and drops by atomization and electromagnetic levitation are app...
Electromagnetic levitation under microgravity provides unique opportunities for the investigation of...
A major reason to conduct solidification experiments in space is that the unique conditions accessib...
Electromagnetic levitation (EML) is a technique for containerless processing. The unique environment...
International audienceContainerless processing of droplets and drops by atomization and electromagne...
International audienceContainerless processing of droplets and drops by atomization and electromagne...