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encasings

Encasings are protective coverings or outer shells that surround an object or component. They are designed to provide mechanical protection, environmental isolation, containment, insulation, electrical shielding, or an aesthetic finish. Encasings can be rigid or flexible and are used across many sectors, including electronics, construction, machinery, medicine, and consumer products.

Common types include cable jackets and conduits that shield conductors, piping and utility encasings that protect

Materials used for encasings range from metals (such as steel and aluminum) to polymers (including PVC, polycarbonate,

Key considerations in encasing systems are compatibility with the enclosed content, thermal performance, environmental exposure, mechanical

buried
or
routed
lines,
and
mechanical
housings
that
enclose
moving
parts
to
reduce
noise
and
improve
safety.
In
construction,
encasings
may
surround
pipes
or
cables
as
they
pass
through
soils,
concrete,
or
structural
members.
In
medicine
and
biotechnology,
implant
housings
and
sensor
enclosures
protect
sensitive
electronics
and
ensure
biocompatibility
or
sterility.
Consumer
devices
often
rely
on
enclosures
to
protect
internal
components
and
provide
ergonomic
shapes.
and
polyethylene)
and
composites.
Selection
depends
on
factors
like
strength,
weight,
corrosion
resistance,
thermal
management,
flame
retardancy,
moisture
barriers,
and
chemical
compatibility.
Fabrication
methods
include
extrusion,
injection
molding,
overmolding,
and
panel
cladding,
often
combined
with
sealing,
gasketing,
or
coatings
to
improve
protection.
load,
and
regulatory
and
safety
requirements.
Proper
design
and
maintenance
of
encasings
help
prolong
service
life,
ensure
reliability,
and
safeguard
users
and
the
surrounding
environment.