Transcript
BUILDING MATERIALS
SAND
Presented by-
Rishabh Dev,Dhir Dhwaj, Anant Nautiyal, Gaurav Soni,
Riya Taneja, Priyvarth Arya
State Institute of Urban Planning and
Architecture
SAND
Sand is a naturally
occurring granular material composed of finely
divided rock and mineral particles.
the most common constituent of sand is silica (silicon
dioxide, or SiO2), usually in the form of quartz.
Classification of sand
Formation
Pit sand
River Sand
Sea Sand
Size of particles
Fine Sand
Coarse Sand
Gravelly Sand
Composition
Clean Sand
Silty Sand
Clayey Sand
Classification on the
basis of formation
PIT SAND
This sand isobtained byforming pits insoils.
It is excavatedfrom a depth ofabout 1-2 m fromthe ground level.
This sand is foundas deposits in soiland it consists ofsharp angulargrains, which arefree from salts.
Pit Sand
It serves as an excellent material for mortar or
concrete work.
Pit sand must be made free from clay and other
organic materials before it can be used in mortar.
A coating of oxide of iron over the sand grains
should be removed.
RIVER SAND
This sand is widely used for all purposes. It is
obtained from the banks or beds of rivers and it
consists of fine rounded grains. The presence of
fine rounded grains is due to mutual attrition
under the action of water current.
River sand
The river sand is available in clean conditions.
The river sand is almost white in color.
It is mainly used for plastering. In north India ,
Yamuna banks are a great source of River sand .
River sand
SEA SAND
This is obtained from sea shores.
It is brown in color and it also has the fine
rounded grain.
Sea sand
DREDGED SAND
DESPOSITION
As it is obtained from sea it contains salt, which is
used in attracting moisture from atmosphere.
Such absorption causes dampness and
disintegration of work.
It is generally not used for engineering purpose
due to its retards setting action of cement. It is
normally used for non structural purposes.
Sea sand
Crushed Stone Sand / Artificial
Sand
It is a substitute for River Sand, fine aggregates
which manufactured by crushing either granite or
basalt rock using 3 stage crushing process.
Classification on the
basis of size of particles
Fine sand
The sand passing through a sieve with clear openings of 1.5mm is
known as fine sand. Fine sand is mainly used for plastering.
Coarse Sand
The sand passing through a sieve with clear openings of 3.5mm is
known as Coarse Sand. Coarse Sand is generally used for masonry
work.
Gravelly Sand
The sand passing through the sieve of 7.62mm is known as Gravelly
Sand. It is generally used for concrete work.
Grading of sand: On the basis of particle size, fine aggregate is
graded into four zones. IS Sieve Percentage passing for
Grading Zone
I
Grading
Zone II
Grading
Zone III
Grading
Zone IV
10mm 100 100 100 100
4.75mm 90 – 100 90 – 100 90 – 100 90 – 100
2.36mm 60 – 95 75 – 100 85 – 100 95 – 100
1.18 mm 30 – 70 55 – 90 75 – 100 90 – 100
600 micron 15 – 34 35 – 59 60 – 79 80 – 100
300 microns 5 – 20 8 – 30 12 – 40 15 – 50
150 microns 0 – 10 0 – 10 0 – 10 0 – 15
Classification of Sand
on the basis of
composition
Clean Sand
•These are well graded sand containing mostly quartz
(SiO2)
•It is free from any organic or inorganic impurities
•It is perfect for construction purposes
Silty Sand
•These are poorly graded sand with considerable amount
of Silt
•The size of silt particles are very small and form lump
•Not good for construction purpose
Clayey Sand
This sand have prominent clay fraction and plastic
fines.
Traditionally used for the construction of walls
Also used as mortar for bricks because of its high
adhesive property
Use of sand in
construction
1) Bricks work – Finest modulus of fine sand. The size of grains must be
between 1.2 – 1.5 mm. it is formed by mixing clay and sand with small
quantities of lime magnesia and iron oxide. Sand gives more shapely and
uniform texture to the bricks. An excess of sand, however render the bricks
too brittle and destroys cohesion. 25% of sand is said to be a good
proportion.
2) Plastering work – Finest modulus of fine sand which have grain size not less
than 1.5mm. It is usually mixed with cement in the ratio of 1:3 or 1:4.
- It is the basic material for every construction. Most of the raw material for
construction consists of some ratio of sand.
Sand for Construction Works
Different construction works require different
standards of sand for construction.
• Brick Works: finest modulus of fine sand should be
1.2 to 1.5 and silt contents should not be more than
4%. Finest modulus of fine sand. The size of grains
must be between 1.2 – 1.5 mm. it is formed by mixing
clay and sand with small quantities of lime magnesia
and iron oxide. Sand gives more shapely and uniform
texture to the bricks. An excess of sand, however
render the bricks too brittle and destroys cohesion.
25% of sand is said to be a good proportion.
• Plastering Works: finest modulus of fine sand should
not be more than 1.5 and silt contents should not be
more than 4%.
• Concreting Works: coarse sand should be used with
finest modulus 2.5 to 3.5 and silt contents should not
be more than 4%.
3) Mortars and concrete work – Sand is used in
mortar and concretes for the following purposes :-
a) Strength – It helps in the adjustment of strength
of mortar or concrete by variation of its proportion
with cement or lime. It also increases the
resistance of mortar against crushing.
SOIL BEARING CAPACITY Bearing capacity is the power of foundation soil to
hold the forces from the superstructure without
undergoing shear failure or excessive settlement.
Foundation soil is that portion of ground which is
subjected to additional stresses when foundation and
superstructure are constructed on the ground. The
following are a few important terminologies related to
bearing capacity of soil
Ultimate Bearing Capacity (qf) : It is the maximum
pressure that a foundation soil can withstand without
undergoing shear failure
Net ultimate Bearing Capacity (qn) : It is the maximum
extra pressure (in addition to initial overburden
pressure) that a foundation soil can withstand without
undergoing shear failure
a) Bulk – It act as an adulterant. Hence, the bulk
volume of mortar is increased which results in
reduction of cost.
c) Setting – In the case of fat lime, CO2 is absorbed
through the voids of sand and setting of lime
occurs effectively.
d) Shrinkage – It prevents excessive shrinkage of
mortar in the course of drying. Hence, the
cracking of mortar during setting is avoided.
e) Surface area - It subdivides the paste of the
binding material into a thin film and thus, more
surface area is offered for its spreading and
adhering.
PROPERTIES OF GOOD SAND
It should be clean and coarse.
It should be free from any organic or vegetable matter; usually 3-4 per cent clay is permitted.
It should be chemically inert.
It should contain sharp, angular, coarse and durable grains.
It should not contain salts which attract moisture from the atmosphere.
It should be well graded, i.e., it should contain particles of various sizes in suitable proportions.
It should be strong and durable.
It should be clean and free from coatings of clay and silt.
Tests1) Sieve test – Sand is filtered through sieve of suitable
pore size. If the residue left is more than the filteredsand then the sand is of poor quality.
2) Take some quantity of sand in water. Then, shake itvigorously and allow it to settle down. If the clay andsilt is present in sand , its distinct layer is formed atthe top of water. The sand is acceptable if the amountof clay and silt present is not more than 5% than thetotal mixture.
3) To detect the presence of organic material in thesand, add NaOH or Caustic Soda to it. If the colourchanges to brown, then the sand has organicimpurities.
BULKING OF SAND
The increase in the volume of sand due to the
presence of moisture is known as bulking of sand.
This is due to the fact that moisture forms a film of
water around the sand particles and this results in an
increase in the volume of sand. The extent of bulking
depends on the grading of sand. The finer the
material the more will be the increase in volume for
the given moisture content.
For a moisture content of 5–8 per cent, the increase
in volume may be about 20–40 per cent depending
upon the gradation of sand. When the moisture
content is further increased, the sand particles pack
near each other and the amount of bulking is
decreased. Hence, dry sand and the sand completely
flooded with water have practically the same volume.
Deleterious materials in sand
Sand shall not contain any harmful impurities such as iron, pyrites, alaklies, salts, coal or other organic impurities, mica, shale or similar laminated materials, soft fragments, sea shale in such form or in such quantities as to affect adversely the hardening, strength or durability of the mortar. The maximum quantities of clay, fine silt, fine dust and organic impurities in the sand / marble dust shall not exceed the following limits:
(a) Clay, fine silt and fine dust when determined in accordance within not more than 5% by mass in IS 2386 (Part-II), natural sand or crushed gravel sand and crushed stone sand.
(b) Organic impurities when determined in color of the liquid shall be lighter in lighter in accordance with IS 2386 (Part –II) than that specified in the code.
Transportation of sand
It is usually transported in trucks or trolleys from the digging
sites to the construction sites as it is required in bulk amount.
It is measured in cubic feet.
length
height
Substitutes of Sand
Sand has now become a scarce material and extraction of
river sand is now said to affect the ecological balance. The
use of substitutes for sand has gained greater importance.
Surkhi, or finely grained burnt clay, is one of the materials
used for this purpose. It can be used in all mortars except
that for plastering.
Processed quarry dust or stone screening is also being
used as substitutes. It is abundantly available and if it is
properly screened, it imparts more strength to the mortar.
This is now being industrially manufactured.
references
http://theconstructor.org/concrete/joints-in-
concrete-structures/970/
http://www.wikihow.com/Make-Concrete
THANK YOU
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