The microstructure of eutectics is frequently lamellar or
rod-like, depending on the phase fractions of the constituent phases. The
effect of melt flow on eutectic microstructures has been investigated by
several research groups, especially since the availability of solidification
processing under microgravity conditions. This chapter discusses the
periodically changing rod distance in unidirectional solidified Al - Al3Ni
eutectic.
Eutectic Al-5.6 wt% Ni was directionally solidified with and
without magnetic stirring, and the eutectic rod-like microstructures were
characterised. The research aims to study the effect of a rotating magnetic
field on the microstructure of the eutectic composition alloy. Rod-like
eutectics are generally described by rod distance and the number of the nearest
neighbours. More than the commonly used average values are required for
complete characterisation of the microstructure because placing the rods is not
homogenous. We measured the parameters above along straight lines and found a
previously unknown phenomenon. In the case of intensive melt flow, the spacings
between rods show a significant periodic inhomogeneity. This inhomogeneity can
be explained by the formation of vortices in the melt at the solidification
front. It is concluded that the rod spacing in the eutectic microstructure
changed periodically.
Zsolt Veres,
Institute of Physical Metallurgy, Metal Forming, and Nanotechnology, University of Miskolc, Hungary and HUN REN- University of Miskolc, Materials Science Research Group, Hungary.
Arnold Rónaföldi,
Institute of Physical Metallurgy, Metal Forming, and Nanotechnology, University of Miskolc, Hungary and HUN REN- University of Miskolc, Materials Science Research Group, Hungary.
Jeno Kovacs,
HUN REN- University of Miskolc, Materials Science Research Group, Hungary.
Andras Roosz,
Institute of Physical Metallurgy, Metal Forming, and Nanotechnology, University of Miskolc, Hungary and HUN REN- University of Miskolc, Materials Science Research Group, Hungary.
Please see the link here: https://stm.bookpi.org/EMMSMFMSA/article/view/13085
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