Home

polyamiden

Polyamides, also known as nylons, are a family of polymers that contain amide linkages (-CO-NH-) in their main chain. They can be synthetic or bio-based and are among the most widely used engineering polymers. Most synthetic polyamides are produced by condensation of diamines with dicarboxylic acids, or by polymerization of lactams such as caprolactam. Common varieties include nylon 6, nylon 6,6, and nylon 12, with numerous copolymers and semi-aromatic grades also in use.

Properties of polyamides include high tensile strength, stiffness, and excellent abrasion resistance, along with good chemical

Processing and applications: Polyamides are melt-processable and widely used in injection molding, extrusion, and fiber formation.

Variants and sustainability: Bio-based polyamides such as PA11 and PA1010 are derived from renewable feedstocks, offering

Limitations and aging: Moisture sensitivity, hydrolysis at elevated temperatures, and UV exposure in certain grades may

resistance
to
oils
and
fuels.
They
are
often
semi-crystalline,
which
contributes
to
strength
and
heat
resistance
but
makes
them
sensitive
to
moisture.
Water
uptake
can
increase
dimensional
changes
and
reduce
mechanical
properties.
Thermal
properties
vary
by
grade,
but
many
nylons
melt
in
the
180–270°C
range,
enabling
melt
processing.
Reinforcement
with
glass
or
carbon
fibers
improves
stiffness
and
heat
resistance.
Applications
include
textiles
and
carpets,
automotive
components,
gears
and
bearings,
electrical
connectors,
and
housings
for
consumer
electronics.
lower
fossil
energy
use.
Recycling
can
be
mechanical
or
chemical,
with
chemical
recycling
depolymerizing
nylon
back
to
monomers
in
some
processes.
affect
performance.
Additives
and
stabilizers
are
commonly
used
to
tailor
durability
and
processing.