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energyabsorbing

Energyabsorbing, also written energy-absorbing or energy absorbing, refers to the capacity of a material, component, or system to dissipate or store energy from an external source, thereby reducing the energy transmitted to other parts of the system. This property is central to impact protection, vibration control, and structural safety.

Mechanisms by which energy is absorbed include plastic deformation, viscoelastic damping, friction, phase changes, and controlled

Applications span automotive crash energy absorbers and crumple zones, aerospace and maritime shock isolation, civil engineering

Quantification typically uses the energy absorbed, E = ∫ F dx, with specific energy absorption (SEA) defined as

See also: damping, shock absorber, crashworthiness, energy dissipation.

fracture.
Materials
commonly
used
as
energy
absorbers
include
polymers
and
foams
(such
as
polyurethane
foams
and
elastomers),
metals
that
yield
under
load,
ductile
foams,
and
composite
cellular
structures
like
honeycombs.
Design
often
relies
on
combinations
of
stiffness
and
dissipative
properties
to
balance
peak
forces
and
total
energy
absorption,
sometimes
with
staged
or
progressive
absorption
to
extend
performance.
dampers,
protective
equipment,
and
machinery
mounts.
In
buildings
and
infrastructure,
energy
absorbing
devices
help
limit
damage
from
impacts
and
seismic
events,
while
in
consumer
products
they
protect
users
from
sudden
loads
and
vibrations.
energy
absorbed
per
unit
mass.
Related
concepts
include
damping
ratio
and
performance
under
varying
temperatures
and
loading
rates.
Design
considerations
involve
target
energy
capacity,
permissible
peak
forces,
weight,
cost,
fatigue
life,
and
reliability,
often
requiring
trade-offs
between
energy
absorption
efficiency
and
structural
integrity.