Construction aggregate, or simply
"aggregate", is a broad category of coarse particulate material used
in construction, including sand, gravel, crushed stone, slag, recycled concrete
and geosynthetic aggregates. Aggregates are a component of composite materials
such as concrete and asphalt concrete; the aggregate serves as reinforcement to
add strength to the overall composite material. Due to the relatively high
hydraulic conductivity value as compared to most soils, aggregates are widely used
in drainage applications such as foundation and french drains, septic drain
fields, retaining wall drains, and road side edge drains. Aggregates are also
used as base material under foundations, roads, and railroads. To put it
another way, aggregates are used as a stable foundation or road/rail base with
predictable, uniform properties (e.g. to help prevent differential settling
under the road or building), or as a low-cost extender that binds with more
expensive cement or asphalt to form concrete.
The American Society for Testing and Materials publishes an exhaustive listing of specifications for various construction aggregate products, which, by their individual design, are suitable for specific construction purposes. These products include specific types of coarse and fine aggregate designed for such uses as additives to asphalt and concrete mixes, as well as other construction uses. State transportation departments further refine aggregate material specifications in order to tailor aggregate use to the needs and available supply in their particular locations.Sources for these basic materials can be grouped into three main areas: Mining of mineral aggregate deposits, including sand, gravel, and stone; use of waste slag from the manufacture of iron and steel; and recycling of concrete, which is itself chiefly manufactured from mineral aggregates. In addition, there are some (minor) materials that are used as specialty lightweight aggregates: clay, pumice, perlite, and vermiculite.
The American Society for Testing and Materials publishes an exhaustive listing of specifications for various construction aggregate products, which, by their individual design, are suitable for specific construction purposes. These products include specific types of coarse and fine aggregate designed for such uses as additives to asphalt and concrete mixes, as well as other construction uses. State transportation departments further refine aggregate material specifications in order to tailor aggregate use to the needs and available supply in their particular locations.Sources for these basic materials can be grouped into three main areas: Mining of mineral aggregate deposits, including sand, gravel, and stone; use of waste slag from the manufacture of iron and steel; and recycling of concrete, which is itself chiefly manufactured from mineral aggregates. In addition, there are some (minor) materials that are used as specialty lightweight aggregates: clay, pumice, perlite, and vermiculite.
Strength
Normal concrete
strengths are lower than natural aggregates. Most aggregates are stronger than
the concrete designed or specified strength. In fact, moderate and low strength aggregates can reduce the stress in
cement paste and increase the durability of concrete.
ABSORPTION,
POROSITY AND PERMEABILITY
In aggregate, the internal pore characteristics are very important. The size and the continuity of the
pores in an aggregate particle are always relate to the strength of
aggregate, abrasion resistance,
surface texture, specific gravity, bonding capabilities, and resistance to
freezing and thawing action. Absorption relates to the particles ability to accommodate liquid. Porosity is a
ratio of volume of void to the volume of the solid particle. Permeability
refers to the particle’s ability for
liquids to pass through. If the rock pores are not connected, a rock may have
high porosity and low permeability.
Grading of aggregates
Aggregates which
are retained on a 5mm BS sieve and bigger are termed coarse aggregates, while
those passing 5mm sieve are termed fine aggregates.
Aggregates are
described by their maximum size, graded down, eg 14mm, 20mm or 40mm.
It is important
to use well graded aggregates in a concrete mix to achieve the following:
-
the
various sizes of particles interlock, leaving the minimum volume of voids to be
filled with cement
-
the
particles flow together readily, ie the mix is workable
-
a
lower water/cement ratio resulting in higher strength of hardened concrete
-
maximum
density for good strength and durability
BS 882: 1992, Specification
for Aggregates from natural sources for concrete, British Standard, gives
grading limits for the various particle sizes (see Table 16.1). Aggregates for
use in concrete must fall within the limits of the grading curves for coarse
and fine aggregate. Fig 16.2 shows the
grading limits for the various particle sizes; both for coarse and fine
aggregates.
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 The coarse aggregate can be either;
-single size where nearly all of the particles are
within 2 successive sizes,
eg 5-10mm, 10-20mm or 20-40mm
- graded where the smallest size is 5mm,
e.g. 5-14mm, 5- 20mm or 5-40mm.
The
BS standard subdivides this into 3 divisions:
-
fine
-
medium
-
coarse
Is there an ideal grading which is applicable to all
aggregates?
No, for important work, tests need to be carried out
to determine the grading (for the particular type of aggregate)
As a guide, which gives maximum workability, economy, density, strength and durability in the concrete. a ratio of 1 fine aggregate : 1½ to 3 coarse aggregate is
satisfactory.
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aggregate spelling wrong la
ReplyDeleteoh ya, i make correction already ^^ Thank you ^^
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