Add to ORKGThis study is concerned the shape of dendritic tip grown from an undercooled melt in the presence of fluid velocity. The tip shape function is derived and tested against numerical simulations when a forced convection plays a decisive role.L.V.T. acknowledges the financial support from the Russian Science Foundation (project no. 21-79-10012)
Experimental results obtained as part of a series of experiments on dendritic growth in microgravity...
A stable growth mode of a single dendritic crystal solidifying in an undercooled ternary (multicompo...
Dendritic growth velocities in an undercooled melt of pure nickel under static magnetic fields up to...
This study is concerned the shape of dendritic tip grown from an undercooled melt in the presence of...
This study is concerned with the question of what is the shape of a dendritic tip grown from an unde...
The present article is focused on the shapes of dendritic tips occurring in undercooled binary syste...
International audienceThe theory of stable dendritic growth within a forced convective flow field is...
In this work, a stable relation for the dendrite tip velocity V and its tip diameter via the select...
International audienceThis article is devoted to the study of the tip shape of dendritic crystals gr...
Alloy dendrite growth during solidification with coupled thermal-solute-convection fields has been s...
Motivated by important applications in materials science and geophysics, we consider the steady-stat...
The growth of a free dendrite into a supercooled liquid is simulated through a modified version of t...
The cell/dendrite tip radii in directionally solidified Pb-8.4at.%Au have been investigated as a fun...
In this paper, we develop a theory of stable dendritic growth in undercooled melts in the presence o...
There is considerable interest in dendritic solidification because of the influence dendrites have i...
Experimental results obtained as part of a series of experiments on dendritic growth in microgravity...
A stable growth mode of a single dendritic crystal solidifying in an undercooled ternary (multicompo...
Dendritic growth velocities in an undercooled melt of pure nickel under static magnetic fields up to...
This study is concerned the shape of dendritic tip grown from an undercooled melt in the presence of...
This study is concerned with the question of what is the shape of a dendritic tip grown from an unde...
The present article is focused on the shapes of dendritic tips occurring in undercooled binary syste...
International audienceThe theory of stable dendritic growth within a forced convective flow field is...
In this work, a stable relation for the dendrite tip velocity V and its tip diameter via the select...
International audienceThis article is devoted to the study of the tip shape of dendritic crystals gr...
Alloy dendrite growth during solidification with coupled thermal-solute-convection fields has been s...
Motivated by important applications in materials science and geophysics, we consider the steady-stat...
The growth of a free dendrite into a supercooled liquid is simulated through a modified version of t...
The cell/dendrite tip radii in directionally solidified Pb-8.4at.%Au have been investigated as a fun...
In this paper, we develop a theory of stable dendritic growth in undercooled melts in the presence o...
There is considerable interest in dendritic solidification because of the influence dendrites have i...
Experimental results obtained as part of a series of experiments on dendritic growth in microgravity...
A stable growth mode of a single dendritic crystal solidifying in an undercooled ternary (multicompo...
Dendritic growth velocities in an undercooled melt of pure nickel under static magnetic fields up to...