Home

radiationstable

Radiationstable, or radiation-stable, is a term used in materials science to describe substances that retain their structural integrity and functional properties when exposed to ionizing radiation. The concept is important in nuclear, aerospace, medical, and sterilization contexts where components may receive prolonged or intense radiation doses.

Stability depends on factors such as the radiation type (gamma, X-ray, beta, alpha, neutrons), dose and dose

Assessment uses irradiation tests followed by post-irradiation examination. Quantitative metrics include total ionizing dose (TID), displacement

Applications include structural components for nuclear reactors, insulating materials for high-energy equipment, spacecraft and satellite hardware

See also: radiation hardness, radiation damage, materials science, polymer degradation. Further reading covers general texts on

rate,
temperature,
and
the
chemical
composition
and
microstructure
of
the
material.
Common
radiation-induced
effects
include
chain
scission
and
crosslinking
in
polymers,
oxidation
and
color
changes
in
glasses,
gas
evolution,
embrittlement,
and
loss
of
electrical
insulation.
Some
materials
may
withstand
high
doses
via
crosslinking
that
reduces
chain
mobility,
while
others
degrade
rapidly.
damage,
and
changes
in
properties
such
as
tensile
strength,
modulus,
toughness,
dielectric
constant,
optical
transmission,
or
permeability.
Standards
and
test
methods
vary
by
application
and
may
specify
dose
levels
and
environmental
conditions.
subjected
to
cosmic
radiation,
medical
devices
and
sterilization-ready
polymers,
and
protective
coatings.
Material
selection
often
requires
a
balance
between
radiation
stability
and
other
requirements
such
as
weight,
cost,
and
manufacturability.
radiation
effects
in
materials.