Add to ORKGDendritic structures are very common in metallic metals produced by solidification. The developing grain morphologies and the growth dynamics characterize the final microstructure of an alloy. We study the evolution and growth morphologies of dendrites using in-situ X-ray radiography and post-mortem electron backscatter diffraction (EBSD). The growth velocities of the dendrite tips and the change of solute composition in the extra-dendritic liquid in thin ( direction, whereas dendrites in Al-Ge alloys show variable growth directions. We find an influence of germanium content on the selected dendrite orientiations
International audienceThe impulse atomization process developed at the University of Alberta (Canada...
The study of dendritic growth is a challenging topic at the heart of intense research in material sc...
International audienceThe development of dendritic equiaxed grains in thin samples is monitored by i...
Numerical computer simulations of microstructure evolution during dendritic solidification require r...
We report on a dendrite orientation transition (DOT) discovered in the Al-Ge system by conducting is...
In-situ solidification experiments of Al-Cu and Al-Ge samples were performed using a laboratory X-ra...
© 2015 Elsevier Inc. All rights reserved. Special growth pattern representing unique growth conditio...
In situ X-radiography imaging during the isothermal solidification of a 200 µm thin Al-24 at.% Ge sa...
In-situ X-radiography and X-ray tomoscopy is used to investigate the evolution of dendrites in Al-Ge...
The microstructural evolution of an Al–10 wt.% Cu alloy was investigated during solidification at co...
International audienceThe microstructural evolution of an Al–10 wt.% Cu alloy was investigated durin...
We determine the tip growth velocities of equiaxed dendrites in an Al-24 at. % Ge alloy using in sit...
The micrograph shows Al-Mg-Fe-Si containing < 1wt.% of each solute. No addition of grain refinement ...
International audienceThe microstructural evolution of an Al–10 wt.% Cu alloy was investigated durin...
International audienceThis paper reports on experiments dedicated to equiaxed solidification carried...
International audienceThe impulse atomization process developed at the University of Alberta (Canada...
The study of dendritic growth is a challenging topic at the heart of intense research in material sc...
International audienceThe development of dendritic equiaxed grains in thin samples is monitored by i...
Numerical computer simulations of microstructure evolution during dendritic solidification require r...
We report on a dendrite orientation transition (DOT) discovered in the Al-Ge system by conducting is...
In-situ solidification experiments of Al-Cu and Al-Ge samples were performed using a laboratory X-ra...
© 2015 Elsevier Inc. All rights reserved. Special growth pattern representing unique growth conditio...
In situ X-radiography imaging during the isothermal solidification of a 200 µm thin Al-24 at.% Ge sa...
In-situ X-radiography and X-ray tomoscopy is used to investigate the evolution of dendrites in Al-Ge...
The microstructural evolution of an Al–10 wt.% Cu alloy was investigated during solidification at co...
International audienceThe microstructural evolution of an Al–10 wt.% Cu alloy was investigated durin...
We determine the tip growth velocities of equiaxed dendrites in an Al-24 at. % Ge alloy using in sit...
The micrograph shows Al-Mg-Fe-Si containing < 1wt.% of each solute. No addition of grain refinement ...
International audienceThe microstructural evolution of an Al–10 wt.% Cu alloy was investigated durin...
International audienceThis paper reports on experiments dedicated to equiaxed solidification carried...
International audienceThe impulse atomization process developed at the University of Alberta (Canada...
The study of dendritic growth is a challenging topic at the heart of intense research in material sc...
International audienceThe development of dendritic equiaxed grains in thin samples is monitored by i...