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Study on Anomalous Rapid Solidification of Al-35 at%Ni in Microgravity
by
Rettenmayr, M.
, Alexandrov, D. V.
, Galenko, P. K.
, Reinartz, M.
, Herlach, D. M.
, Toropova, L. V.
, Kolbe, M.
in
Alloys
/ Cameras
/ Chemistry/Food Science
/ Crystal growth
/ Earth Sciences
/ Engineering
/ Environment
/ Exact solutions
/ International Space Station
/ Magnetic levitation
/ Microgravity
/ Morphology
/ Nickel aluminides
/ Nickel base alloys
/ Nickel compounds
/ Phenomena and Scales Influencing Alloy Solidification Microstructures
/ Physics
/ Rapid solidification
/ Raw materials
/ Solidification
/ Solids
/ Space stations
/ Supercooling
/ Velocity
2022
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Study on Anomalous Rapid Solidification of Al-35 at%Ni in Microgravity
by
Rettenmayr, M.
, Alexandrov, D. V.
, Galenko, P. K.
, Reinartz, M.
, Herlach, D. M.
, Toropova, L. V.
, Kolbe, M.
in
Alloys
/ Cameras
/ Chemistry/Food Science
/ Crystal growth
/ Earth Sciences
/ Engineering
/ Environment
/ Exact solutions
/ International Space Station
/ Magnetic levitation
/ Microgravity
/ Morphology
/ Nickel aluminides
/ Nickel base alloys
/ Nickel compounds
/ Phenomena and Scales Influencing Alloy Solidification Microstructures
/ Physics
/ Rapid solidification
/ Raw materials
/ Solidification
/ Solids
/ Space stations
/ Supercooling
/ Velocity
2022
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Study on Anomalous Rapid Solidification of Al-35 at%Ni in Microgravity
by
Rettenmayr, M.
, Alexandrov, D. V.
, Galenko, P. K.
, Reinartz, M.
, Herlach, D. M.
, Toropova, L. V.
, Kolbe, M.
in
Alloys
/ Cameras
/ Chemistry/Food Science
/ Crystal growth
/ Earth Sciences
/ Engineering
/ Environment
/ Exact solutions
/ International Space Station
/ Magnetic levitation
/ Microgravity
/ Morphology
/ Nickel aluminides
/ Nickel base alloys
/ Nickel compounds
/ Phenomena and Scales Influencing Alloy Solidification Microstructures
/ Physics
/ Rapid solidification
/ Raw materials
/ Solidification
/ Solids
/ Space stations
/ Supercooling
/ Velocity
2022
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Study on Anomalous Rapid Solidification of Al-35 at%Ni in Microgravity
Journal Article
Study on Anomalous Rapid Solidification of Al-35 at%Ni in Microgravity
2022
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Overview
Experiments were carried out onboard the International Space Station using the electromagnetic levitation (EML) facility on dendritic growth in Al-35 at%Ni under primary solidification of the NiAl(B2)-phase. The “velocity versus undercooling” relationship shows an anomalous behavior. At low undercoolings,
Δ
T
<
250
K, the velocity unexpectedly decreases with increasing undercooling. For higher undercoolings,
Δ
T
>
250
K, the crystal velocity increases with increasing undercooling following a thermodynamically consistent trend. For such anomalous behavior, a special mechanism was identified through the different crystals having scales and dendritic morphology. The scaled front consists of numerous nuclei ahead of the crystal–liquid interface that occurs in the undercooling range featuring the negative slope for the crystal growth velocity at
Δ
T
<
250
K. This unusual behavior is confirmed experimentally and explained theoretically using analytical solutions for the crystal growth front with the polydisperse ensemble of crystals nucleating ahead of it.
Publisher
Springer US,Springer Nature B.V
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