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verformbar

Verformbar is a German adjective used in engineering and materials science to describe a material’s ability to undergo shape change under mechanical load. The term covers both elastic deformation (reversible) and plastic deformation (permanent), but in technical contexts it is often linked to the material’s forming behavior and its ductility.

In practice, verformbarkeit or Formbarkeit refers to how easily a material can be shaped through processes

The assessment of verformbarkeit is not captured by a single quantity. It is typically inferred from tests

Temperature and processing conditions often play a crucial role. Some materials become more formable at elevated

In summary, verformbar denotes the capacity of a material to deform under load, with emphasis on its

such
as
rolling,
drawing,
stamping,
bending,
or
extrusion.
Materials
with
high
verformbarkeit
can
accommodate
large
deformations
before
failure,
indicating
ductility
and
malleability.
Conversely,
brittle
materials
are
considered
poorly
verformbar
because
they
fracture
with
little
or
no
plastic
deformation.
and
properties
such
as
elongation
at
break
and
reduction
of
area
in
tensile
tests,
forming
limit
diagrams,
bendability,
and
flow
behavior
during
forming
operations.
Microstructural
factors
(grain
size,
phase
distribution,
work
hardening)
and
external
conditions
(temperature,
strain
rate)
strongly
influence
verformbarkeit.
temperatures
(hot
forming)
or
exhibit
phenomena
like
superplasticity,
which
enhance
verformbarkeit
beyond
room-temperature
values.
Materials
selection
and
component
design
accordingly
consider
the
intended
forming
process
and
service
environment.
formability
and
ductility.
The
term
is
context-dependent
and
is
best
clarified
with
references
to
the
specific
deformation
mode,
temperature,
and
microstructural
factors
involved.