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remelts

Remelts are metallurgical operations in which metal or alloy that has already solidified is melted again to produce refined feedstock or finished ingots. The objective is to improve chemical homogeneity, reduce nonmetallic inclusions, and achieve precise control of composition and microstructure, which are important for high-performance applications. Remelted materials are widely used in aerospace, power generation, and electronics, particularly nickel-based superalloys, titanium alloys, stainless steels, and other specialty steels.

Common remelting methods include Vacuum Arc Remelting (VAR) and Electroslag Remelting (ESR). VAR melts a consumable

Process variables include charge material (virgin alloy, scrap, or preforms), atmosphere or vacuum level, temperature control,

Benefits of remelting include improved cleanliness, chemical uniformity, and mechanical properties suitable for demanding service conditions.

electrode
in
a
water-cooled
crucible
under
high
vacuum,
helping
remove
volatile
impurities
and
promote
a
purer
ingot
with
directional
solidification.
ESR
uses
a
consumable
electrode
that
melts
through
a
molten
slag
layer,
refining
the
metal
and
removing
inclusions
before
it
is
cast.
Induction
remelting
and
other
furnace-based
approaches
are
used
for
recycling
scrap
or
producing
economical
feedstock,
sometimes
in
continuous
or
semi-continuous
forms.
and
solidification
rate.
Slag
composition
is
critical
in
ESR,
while
vacuum
quality
matters
in
VAR.
The
resulting
product
is
typically
an
ingot
or
refined
billet
that
can
undergo
further
forging,
rolling,
or
heat
treatment.
Drawbacks
include
higher
energy
consumption,
greater
equipment
cost,
and
longer
production
cycles;
not
all
alloys
require
or
benefit
equally
from
remelting.