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werkharden

In Dutch metallurgy, werkharden refers to the strengthening of a metal by plastic deformation at ambient temperature. In English-language literature, the same phenomenon is called work hardening or strain hardening. The process increases yield strength and hardness while typically reducing ductility, without changing the metal’s chemical composition.

Mechanism and methods: Werkharden occurs when dislocations multiply and entangle, making further glide more difficult. It

Impacts and uses: The resulting higher strength can improve stiffness and load-bearing capacity, as in sheet

Measurement and context: Quantifying werkharden typically involves hardness testing (Rockwell, Vickers) and tensile testing to determine

is
most
pronounced
during
cold
work—deformations
performed
below
the
material's
recrystallization
temperature—through
operations
such
as
rolling,
drawing,
bending,
and
hammering.
If
the
material
is
subsequently
heated
above
the
recrystallization
temperature,
recovery
and
recrystallization
can
reduce
or
erase
the
hardening.
metal,
wires,
springs,
or
fasteners,
without
alloying.
However,
reduced
ductility
and
the
buildup
of
residual
stresses
can
be
drawbacks.
To
restore
ductility,
heat
treatments
like
annealing
are
used
to
rearrange
or
eliminate
dislocations
and
form
new
grains.
yield
strength
and
elongation.
The
degree
of
hardening
depends
on
material
system,
amount
of
deformation,
and
temperature
history.