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scheurmodi

Scheurmodi, or crack modes, refer to the three fundamental ways a crack surface displaces during propagation under load. The concept is standard in fracture mechanics and is used to predict crack growth and assess structural integrity.

Mode I is the opening mode: tensile stress normal to the crack plane causes the fracture faces

Each mode is associated with a stress intensity factor: K_I for Mode I, K_II for Mode II,

Practically, scheurmodi are used in component design, failure analysis, and nondestructive testing. Tests such as compact

See also: fracture mechanics, stress intensity factor, mixed-mode fracture.

to
move
apart,
typically
the
dominant
mode
under
opening
loads.
Mode
II
is
in-plane
shear,
where
the
crack
faces
slide
relative
to
one
another
within
the
crack
plane.
Mode
III
is
anti-plane
shear,
with
out-of-plane
shear
that
tears
the
faces
apart
along
the
thickness
direction.
and
K_III
for
Mode
III,
and
corresponding
energy
release
rates
G_I,
G_II,
G_III.
In
real
components,
loading
is
often
mixed-mode,
involving
more
than
one
mode;
crack
growth
is
governed
by
a
combination
of
K-values
and
material
fracture
toughness,
K_IC,
K_IIc,
K_IIIc,
or
equivalent
G-values.
tension
or
three-point
bending
are
used
to
characterize
Mode
I,
while
other
tests
or
finite-element
analysis
can
reveal
the
relative
contributions
of
Modes
II
and
III.
Modern
techniques
such
as
digital
image
correlation
help
map
displacement
fields
near
cracks
to
identify
active
modes.