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smeltlassen

Smeltlassen, or fusion welding, is a welding process in which the base materials are heated to their melting point or above, forming a molten pool that cools to create a joint. A filler material may be added to produce a stronger weld; when no filler is used, the process is autogenous. The key requirement is sufficient heat input and a controlled environment to prevent oxidation or contamination of the weld.

Common heat sources include electric arc welding methods (SMAW, GMAW/MIG, GTAW/TIG, FCAW), plasma arc welding, laser

Joint preparation includes cleaning, beveling, and proper fit-up. Welds can be butt, fillet, lap, or corner joints.

Advantages of fusion welding include strong joints and versatility for thick sections and complex geometries. Limitations

Smeltlassen is widely used in construction, shipbuilding, pipelines, automotive manufacturing, aerospace, and repair work. Related terms

welding,
electron-beam
welding,
and
oxy-fuel
gas
welding.
Fusion
welding
can
join
a
wide
range
of
metals,
such
as
steels
(carbon
and
stainless),
aluminum,
copper
alloys,
and
nickel-based
alloys,
sometimes
with
dissimilar
metals
through
the
careful
selection
of
filler
material
and
preheating.
Process
control
involves
selecting
appropriate
current,
voltage,
travel
speed,
heat
input,
and
shielding
gas
or
flux.
Preheating
and
post-weld
heat
treatment
may
be
required
to
manage
hardness,
residual
stresses,
and
crack
susceptibility.
include
high
heat
input
that
can
cause
distortion,
residual
stresses,
porosity,
cracks,
and
the
need
for
protective
environments.
Safety
concerns
involve
fumes,
burns,
ultraviolet
exposure,
and
radiation
from
arc
or
laser
sources.
include
fusion
welding,
autogenous
welding,
and
various
arc,
laser,
and
plasma
welding
techniques.