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macrosegregation

Macrosegregation is a macroscopic compositional inhomogeneity that develops in cast or welded metallic components during solidification and subsequent cooling. It refers to variations in alloying element concentration that span lengths from millimeters to centimeters, and is distinct from microsegregation, which occurs within individual grains on a much smaller scale. Macrosegregation can persist after solidification and, if left untreated, may affect performance.

The primary mechanisms involve solute partitioning at the solid–liquid interface, the existence of a wide freezing

Macrosegregation is commonly observed in large ingots, plates, and welded joints in alloys such as steel, aluminum,

Mitigation strategies include controlling solidification rate and pouring temperature to reduce convection, alloy design to minimize

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range,
and
convection
in
the
mushy
zone.
Density
differences
between
liquid
and
solid,
together
with
temperature
gradients,
can
drive
thermo-solutal
flows
that
move
liquid
rich
or
poor
in
solute
along
channels
or
across
cross-sections.
Channel
segregation
occurs
when
interdendritic
or
liquid-filled
paths
transport
solute
during
solidification,
often
producing
elongated,
high-
or
low-concentration
regions.
Inadequate
feeding
of
liquid
metal
to
compensate
solidification
shrinkage
can
also
promote
macrosegregation
by
redistributing
solute
as
the
cast
cools.
copper,
and
nickel-based
systems.
It
can
lead
to
significant
property
variation,
liquation
cracking
during
welding,
reduced
corrosion
resistance,
hot
tearing,
and
difficulties
in
further
processing.
partitioning
effects,
and
thorough
homogenization
heat
treatment
to
even
out
solute
distribution.
Other
approaches
involve
directional
solidification
or
improved
feeding
efficiency
to
limit
channel
formation
and
long-range
diffusion
during
cooling.