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wölbtest

Wölbtest, in English known as the bulge test, is a mechanical characterization method for thin-film and membrane materials. The technique measures the in-plane mechanical response by applying a controlled pressure to a freestanding film that is clamped at its edges, causing a central bulge. A differential pressure is applied across the membrane, generating a bulging height at the center. The pressure–deflection data are collected using optical profilometry, laser triangulation, interferometry, or confocal microscopy. The resulting pressure–deflection curve is analyzed with plate- or membrane-theory models to extract material properties such as Young's modulus, residual stress, and, in some formulations, the biaxial modulus or yield behavior.

Two main variants exist: bulge tests on freestanding membranes and bulge tests integrated into MEMS-like structures

Advantages include the ability to apply biaxial stress in a single test, suitability for very thin samples,

Origin: the bulge test has been used since the mid-20th century as a simple method to characterize

where
the
membrane
is
supported
by
a
frame.
The
technique
is
widely
used
for
ultrathin
films
(e.g.,
silicon
nitride,
oxide
films),
polymeric
membranes,
and
two-dimensional
materials
such
as
graphene,
as
well
as
for
MEMS
devices.
and
non-destructive
measurement.
Limitations
involve
the
need
for
accurate
knowledge
of
boundary
conditions,
precise
pressure
and
deflection
measurements,
and
appropriate
constitutive
models,
as
results
depend
on
geometry
and
boundary
constraints.
thin
membranes.