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stivheden

Stivheden is the Danish term for stiffness or rigidity, describing the resistance of a material, structure, or system to deformation under an applied load. In physics and engineering, stiffness is a property that relates force to the resulting displacement within the elastic range and is distinct from strength, which describes the maximum load a material can bear before failure.

In materials science, stiffness is quantified by elastic moduli: Young's modulus (tension/compression), shear modulus, and bulk

Applications: In design, higher stiffness reduces deflections and shapes dynamic response; designers modify geometry, select stiffer

Measurement and factors: Stiffness is determined from load–deflection tests or dynamic tests, and depends on temperature,

modulus.
For
bending,
stiffness
is
often
expressed
as
flexural
rigidity
EI,
where
E
is
Young's
modulus
and
I
is
the
second
moment
of
area.
For
torsion,
stiffness
is
GJ.
The
ratio
F/δ
gives
stiffness,
where
δ
is
displacement.
materials,
or
add
reinforcements.
In
biomechanics,
stiffness
can
describe
joints,
muscles,
and
tendons
resistance
to
movement;
abnormal
stiffness
may
occur
in
neurological
or
musculoskeletal
conditions
and
affects
gait
and
dexterity.
moisture,
aging,
and
microstructure.
It
is
related
to
natural
frequency
and
vibration
behavior;
the
interplay
with
mass
determines
resonance.
Stivheden
thus
influences
performance
across
mechanical,
civil,
and
biomedical
domains.