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concrete

Concrete is a composite material consisting of a binding cement paste that coats and binds together aggregates such as sand and gravel, plus water and often additives. The cement paste hardens through hydration, creating a rigid matrix that surrounds the aggregates.

The most common binder is Portland cement; admixtures modify setting time, workability, and durability. The water-to-cement

Concrete comes in many forms: plain or unreinforced concrete, reinforced concrete with steel rebar or fibers,

History and production: Roman concrete using lime and pozzolanic ash influenced later developments, and modern Portland

Durability and maintenance: concrete is susceptible to cracking, freeze–thaw damage, corrosion of embedded reinforcement, and alkali–silica

Environmental considerations: cement production is energy-intensive and emits significant CO2. Practices to reduce impact include using

ratio
controls
strength
and
porosity;
lower
ratio
yields
higher
strength
but
more
difficult
placement.
Workability,
curing
conditions,
and
aggregate
quality
all
influence
the
final
properties.
prestressed
concrete,
and
lightweight
or
high-strength
variants.
Self-consolidating
concrete
flows
under
its
own
weight,
reducing
the
need
for
vibration
during
placement.
Fibers
and
other
additives
can
enhance
toughness,
crack
resistance,
or
thermal
properties.
cement
was
developed
in
the
19th
century.
Today
concrete
is
produced
worldwide
in
large
volumes
for
a
wide
range
of
applications,
from
foundations
to
infrastructure
and
precast
elements.
reaction.
Proper
curing,
adequate
cover
for
reinforcement,
and
appropriate
mix
design
improve
longevity
and
performance.
supplementary
cementitious
materials,
recycled
aggregates,
efficient
curing,
and
optimized
mix
designs.
Concrete
remains
a
versatile,
widely
used
material
in
construction
and
civil
engineering.