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Shattering

Shattering is the abrupt fragmentation of a material into numerous pieces, typically resulting from the rapid transmission of high stress that exceeds the material’s strength. While commonly associated with glass, the term applies to any brittle material that fails by rapid crack growth and fragmentation under dynamic loading.

In materials science, shattering describes brittle fracture under high strain rates or thermal shock. Brittle materials

Mechanism-wise, shattering involves initiation of cracks at flaws, swift crack propagation, and the rapid coalescence or

Context and applications vary. Uncontrolled shattering occurs in everyday events such as a dropped glass or

See also: fracture mechanics; brittle fracture; fragmentation; impact and blast physics; materials safety.

such
as
glass,
ceramics,
and
some
polymers
may
experience
rapid
crack
initiation
at
flaws
or
stress
concentrations
and
through
thermal
gradients.
Under
dynamic
loading,
cracks
can
propagate
quickly,
branch,
and
lead
to
fragmentation
rather
than
stable
crack
growth.
The
outcome
depends
on
properties
such
as
fracture
toughness,
flaw
distribution,
and
loading
conditions
including
impact,
explosion,
or
rapid
cooling.
branching
of
cracks
that
detach
pieces
from
the
material.
Boundary
conditions,
confinement,
and
preexisting
defects
influence
crack
paths.
In
glass,
tempering,
laminated
construction,
or
chemical
strengthening
can
alter
fracture
behavior
and
reduce
large
shard
formation,
though
they
may
also
promote
microcracking
or
surface
damage.
a
failed
ceramic
object,
while
controlled
fragmentation
is
considered
in
mining,
artillery,
or
protective
design.
In
safety
engineering,
reducing
shattering
is
often
achieved
by
increasing
toughness,
using
laminated
or
tempered
laminates,
or
employing
impact-resistant
polymers.