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concretes

Concrete is a composite material composed of a cementitious binder, usually Portland cement, aggregates, and water. The binder hydrates to bind the aggregates into a rigid matrix, and admixtures may modify setting time, workability, or durability. When cured, concrete develops compressive strength and dimensional stability; its tensile strength is typically enhanced through reinforcement.

Concrete mixes vary: normal-weight concrete uses standard aggregates; lightweight concrete substitutes part of the aggregate with

Production and curing: concrete is manufactured by batching cement, water, and aggregates, adding admixtures as needed,

Performance and testing: key properties include workability, density, compressive strength, and durability to freeze–thaw cycles, chemical

Durability and sustainability: durability depends on material quality, design, and exposure. Cement production is energy-intensive and

Applications and history: concrete is used in buildings, bridges, highways, dams, and precast elements. Its use

low-density
materials;
high-density
concretes
use
dense
fillers
for
shielding;
specialty
concretes
include
high-strength,
self-consolidating,
fiber-reinforced,
and
early-strength
formulations
designed
for
rapid
construction.
and
placing
the
mixture
before
it
sets.
After
placement,
curing
maintains
moisture
and
temperature
to
enable
proper
hydration,
reducing
cracking
and
improving
long-term
strength.
attack,
and
corrosion
of
reinforcement.
Common
tests
measure
slump
(workability),
compressive
strength,
and
modulus
of
elasticity,
with
standards
established
by
bodies
such
as
ASTM,
EN,
or
ISO.
a
notable
source
of
CO2;
mitigation
strategies
include
supplementary
cementitious
materials,
blended
cements,
and
recycling
of
aggregates.
New
concretes
seek
lower
heat
of
hydration,
greater
longevity,
and
reduced
environmental
footprint.
dates
back
to
ancient
Rome
and
matured
with
Portland
cement
in
the
19th
century.