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1.1 INTRODUCTION
This report deals with entire study of construction material,
bricks, which is made from clay and
are also known as clay products. One of the oldest building
material bricks continues to be a most popular
and leading construction material because of being cheap,
durable and easy to handle and work with. In
primitive ages sun dried clay bricks were used. Egyptians were
probably the first to use the burnt clay
bricks. By heating thee clay products to about its constituents
fuse and because of the affected
chemical changes, the product becomes hard, brittle and a strong
and stable clay product most suitable as
a primary building unit for construction. Clay bricks are used
for building-up exterior and interior walls,
partitions, piers, footings and other load bearing structures.
The density of bricks range between 2.5 to 2.8
g/cm3
depending upon the clay composition. Bricks are generally
resistant to alkalis, acids, and chemical
and are excellent fire resistant building materials. The modulus
of elasticity of brick range between 5-30
103 N/mm
3.
A brick is regular in shape and of size that can be conveniently
handled with one hand. Bricks
may be makes of burnt clay or mixture of sand and lime, or
flyash lime and sand, or of Portland cement
concrete. Clay bricks are commonly used since these are
economical and easily available.
Size of a standard bricks (also known as modulur bricks) should
be 19 9 9 cm and 19 9 4
cm. when placed in masonry the 19 9 9 cm brick with mortar
becomes 20 10 10 cm.
Burning of moulded clay products make them sufficiently strong
for use as construction material.
Though tiles, refectory bricks, earth wares and stones wares
serve different construction purpose, brick is
the most commonly used building material. It is light, easily
available, uniform in shape and size, and
relatively cheaper except in hilly areas. Bricks are easily
moulded from plastic clays, also known as brick
clay or brick earth.
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1.2 SOURCES AND QUALITIES OF BRICK EARTH
1.2.1 Sources of brick earth
Brick earth is derived by the disintegration of igneous rocks.
Potash feldspars, orthoclase or
microcline (K2O: Al2 O3 6SiO2) is mainly responsible for
yielding clay mineral in the earth. This mineral
decomposes to yields kaolinite, a silicate of alumina which on
hydration gives a clay deposit Al2 O3
2H2O known as kaolin.
For the preparation of bricks, clay or other suitable earth is
molded to the desired shape after
subjecting it to several processes. After drying, it should not
shrink and no crack should develop. The clay
used for brick making consist mainly of silica and alumina mixed
in such a proportion that the lcay
becomes plastics when water is added to it. It also consists of
small proportions of lime, iron, manganese,
sulphur, etc. the proportions of various ingredients are as
follows in the table shown below.
Sl.no. Ingridents Proportions Functions
1 Silica 50-60% Adds durability, prevents shrinkage and
warping.
2 Alumina 20-30% Absorbs water and renders the clay
plastics.
3 Lime 10% Reduces shrinkage, lowers the fusion point and
helps in binding of clay and silica.
4 Magnesia
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3. They are free from flaws, cracks and stones.
4. These should have uniform texture.
5. No impression should be left on the bricks when a scratch is
made by a finger nail.
6. The fractured surface of the bricks should not show lumps of
lime.
7. A metallic or ringing sound should come when two bricks are
struck against each other.
8. Water absorption should be 12-15% of its dry weight when
immersed in cold water for 24 hours.
9. The crushing strength of the bricks should not be less than
10 N/mm2.
Uses: First class bricks are recommended for pointing, exposed
face work in masonry structures,
flooring and reinforcement brick work.
Second class bricks: are supposed to have the same requirements
as the first class ones except that
1. Small cracks and distortions are permitted.
2. A little higher water absorption of about 16-20% of its dry
weight is allowed.
3. The crushing strength should not be less than 7.0 N/mm2.
Uses: second class bricks are recommended for all important or
unimportant hidden masonry wroks
and centering of reinforced brick and reinforced cement concrete
(RCC) structures.
Third class bricks: are underburnt. They are soft and light
coloured producing a dull sound when
struck against each other. Water absorption is about 25 per cent
of dry weight.
Uses: it is used for building temporary structures.
Fourth class bricks: are over burnt and badly distorted in shape
and size and are brittle in nature.
Uses: The ballast of such bricks is used for foundation and
floors in lime concrete and road metal.
1.3.1 On the basis of strength
The Bureau of Indian Standard (BIS) has classified the bricks on
the basis of compressive
strength and is as given in table below:
Sl. no Class Average compressive strength not less than
(N/mm2)
1 35 35.0
2 30 30.0
3 25 25.0
4 20 20.0
5 17.5 17.5
6 15 15.0
7 12.5 12.5
8 10 10.0
9 7.5 7.5
10 5 5.0
11 3.5 3.5
classification of bricks based on compressive strength
(IS:10700)
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1.3.2 On the basis of uses
Common bricks: is a general multi-purpose unit manufactured
economically without special
reference to appearance. These may vary greatly in strength and
durability and are used for
filling, backing and in walls where appearance is of no
consequence.
Facing bricks: are made primarily with a view to have good
appearance, either of colour or
texture or both. These are durable under severe exposure and are
used in fronts of building walls
for which a pleasing appearance is desired.
Engineering bricks: are strong, impermeable, smooth, table
moulded, hard and conform to
defined limits of water absorption and strength. These are used
for all loas bearing structures.
1.3.3 On the basis of finish
Sand-faced bricks: has textured surface manufactured by
sprinkling sand on the inner surfaces
of the mould.
Rustic bricks: has mechanically textured finish, varying in
pattern.
1.3.4 On the basis of manufacture
Hand-made: these bricks are hand moulded.
Machine made: depending upon mechanical arrangement, bricks are
known as wire-cut bricks-
bricks cut from clay extruded in a column and cut off into sizes
by wires; pressed-bricks- when
bricks are manufactured from stiff plastic or semi-dry clay and
pressed into moulds; moulded
bricks-when bricks are moulded by mechanics imitating hand
mixing.
1.3.5 On the basis of burning
Pale bricks: are under burnt bricks obtained from outer portion
of the kiln.
Body bricks: are well burnt bricks occupying central portion of
kiln.
Arch bricks: are over burnt also known as clinker bricks
obtained from inner portions of the kiln.
1.3.6 On the basis of types
Solid: small holes not exceeding 25 per cent of the volume of
the bricks are permitted;
alternatively, frogs not exceeding 20 per cent of the total
volume are permitted.
Perforated: small holes may exceed 25 per cent of the total
volume of the bricks.
Hollow: the total of holes, which need not be small, may exceed
25 percent of the volume of
bricks.
Cellular: holes closed at one end exceed 20 per cent of the
volume.
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1.4 GENERAL CHARACTERISTICS OF GOOD BRICKS
The essential requirement for building bricks are sufficient
strength in crushing, regularity in size,
a proper suction rate, and a pleasing appearance when exposed to
view.
Size and shape: The bricks should have uniform size and plane,
rectangular surface with parallel
sides and sharp straight edges.
Colour: The bricks should have a uniform deep red or cheery
colour as indicative of uniformity
in chemical composition and thoroughness in the burning of the
bricks.
Texture and Compactness: The surface should not be too smooth to
cause slipping of mortar.
The brick should have precompact and uniform texture. A
fractured surface should not show
fissures, holes grits or lumps of lime.
Hardness and Soundness: The bricks should be so hard that when
scratched by a finger nail no
impression is made. When two bricks are struck together, a
metallic sound should be produces.
Water absorption: should not exceed 20 per cent of its dry
weight when kept immersed in water
for 24 hours.
Crushing strength: should not be less than 10 N/mm2.
Brick earth: Should be free from stones, kankars, organic
matters, saltpeter, etc.
1.5 DEFECTS OF CLAY BRICKS
Over-burning of bricks: Bricks should be burned at temperature
at which incipient,
complete and viscous vitrification occur. However, if the bricks
are over burnt, a soft
molten mass is produced and the bricks lose their shape. Such
bricks are not used for
construction works.
Under-burning bricks: When bricks are not burnt to cause
complete vitrification, the
clay is not softened because of insufficient heat and the pores
are not closed. This results
in higher degree of water absorption and less compressive
strength. Such bricks are not
recommended for construction works.
Bloating: this defect observed as spongy swollen mass over the
surface of burned bricks
is caused due to the presence of excess carbonaceous matter and
sulphur in brick-clay.
Black core: When brick-clay contains bituminous matter or carbon
and they are not
completely removed by oxidation, the brick results in black core
mainly because of
improper burning.
Chuffs: The deformation of the shape of bricks caused by the
rain water falling on hot
bricks is known as chuffs.
Spots: Iron sulphide, if present in the bricks clay, results in
dark surface spots on the
bricks surface. Such bricks though not harmful are unsuitable
for exposed masonry work.
Blisters: Broken blisters are generally caused on the surface of
sewer pipes and drain
tiles due to air imprisoned during their moulding.
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1.6 MANUFACTURE OF BRICKS
1.6.1 Additives
Additives are generally added to improve the certain qualities
of bricks. And its of various types,
some gives strength, some helps to control the drying property,
etc some of the examples are mentioned
below.
1. Fly ash.
It helps towards the strength of the bricks due to its silicate
constituent. Fly ash is available as a
waste from thermal power plants.
2. Sandy loam.
This additive helps in controlling the drying property of the
highly plastic soil mass containing
expanding group of clay minerals.
3. Basalt stone dust.
Its layer of cottony soil obtained from the covering of the
basalt stone. It helps us to properly
shape the bricks.
1.7 PREPARATION OF BRICK EARTH
Its consist of the following steps,
Unsoiling
Its the removal of top soil as top soil generally contains
stones, roots, etc. about 20 cm of top soil
is removed.
Digging
After removal of top soil, the additives are spreaded over the
surface. Soil mass then is manually
excavated, puddled and watered.
Weathering
Then the soil which undergone digging is heaped on a level
ground in layer of 60 to 120 cm so
for the weathering to occur for the maintenance of
uniformity.
Blending
Then the weathered soil is mixed with the calcareous soil so to
modify its composition. Then
water is also added and the whole composition is uniformly mixed
with spade.
Tempering
Its done if required, its done to maintain the uniformity. Its
done in a pug mill and process is
called pugging.
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Moulding
Its the shaping and sizing of brick into required dimension.
Moulding is of four types, hand, and
machine moulding.
Drying
Drying is the removal of moisture content of the bricks. Drying
can also be done artificially,
where artificial is also classified into two, hot floor drying
and tunnel drying.
Burning
Its further of three sub stages 1. Dehydration (completely
removal of water content heated to
400-650 degree centigrade), 2.oxidation (removal of carbon
content and ferrous iron converted to
ferric oxide heated t 650-900 degree centigrade), 3.
Vertification (to convert the final product into
glass like substance, heated to 900-1250 degree Celsius).
1.8 SPECIAL FORMS OF BRICKS AND THEIR USES
Different forms of bricks:
The different forms in which bricks are made for special
purposes are almost innumerable.
It would not be worthwhile, even if space were available, to
describe them all; but a few of the principal
varieties may be mentioned.
Ordinary Bricks are of rectangular section, both longitudinally
and transversely, and solid throughout.
Purpose-made Bricks are those which are specially moulded to
shapes suited for particular situations
There are several advantages in having the bricks thus
purpose-moulded: cutting is saved, and the surface-
skin of the brick is left intact, which enables the brick to
resist the weather far better than if the surface
were removed by cutting.
Note:
Bricks are made in a wide range of shapes to suit the
requirements.
Avoid the burdensome process of cutting and rounding the
rectangular bricks to the desired shape.
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1. Bull Nosed Bricks: A brick moulded with a rounded angle is
termed as a bullnose. It is used for a rounded quoin. A connection
which is formed when a wall takes a turn is known as a
quoin. . The centre of the curved portion is situated on the
long centre-line of brick.
A brick moulded with a double bullnose on end is known as a
cownose.
Uses: Bull nosed bricks are used to create soft and attractive
curved edges to steps, sills, or in
capping walls.
2. Perforated Bricks: have cylindrical holes through their
thickness, which makes them easier to burn (because the fire can
penetrate them more thoroughly), and lighter to handle. Such bricks
are
often made from the denser and heavier clays. Drawbacks of using
Perforated Brick is that they
transmit sound readily.
Uses: Perforated Bricks are used for constructing load bearing
walls of low buildings, panel walls for
multistoried buildings and for providing partition walls.
3. Hollow Bricks: These are also known as the cellular or cavity
bricks. Such bricks have wall
thickness of about 20 mm to 25 mm. They are prepared from
special homogeneous clay. They are
light in weight about one-third the weight of the ordinary brick
of the same size. These bricks can
be laid almost about four times as fast as the ordinary bricks
and thus the use of such bricks leads
to speedy construction. They also reduce the transmission of
heat, sound and damp.
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Uses: They are used for the construction of non-load bearing
walls, partition walls or panel walls to
multistoried buildings.
4. Circular Bricks: These bricks are used for constructing
wells, towers etc.
5. Paving Bricks: These types of bricks are prepared from clay
containing higher percentage of iron. The excess iron vitrifies the
bricks at a low temperature. Such bricks resist better the
abrasive action of traffic. The paving bricks may be plain or
chequered.
Uses: These bricks are extensively used for garden walks, street
pavements, stable floors, etc. These
bricks also render the brick floor less slippery.
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6. Cant bricks: A cant brick is type of brick manufactured with
a slight taper on one brick face. Uses: used to soften the edges of
windows and door openings.
Single cant brick double cant brick
7. Squint Bricks: are used to continue the line of brickwork
around a 45 degree corner, such as that required for a bay
window.
Bay window
The above different types of bricks are usually more costly than
the ordinary bricks. But they grant safe,
clean and quick construction. Hence, their cost is justified by
their excellent performance in situations for
which they are purposely prepared.
1.9 TESTING OF BRICKS
Bricks is one of the most important and basic unit for
constructing a building. In fact, no structure can be
built without them. Therefore, it is imperative to test them for
their useful properties and also to ensure
that consequent to their usage no undesirable effects are
noticeable. Testing of bricks for strength,
durability, efflorescence and dimensional tolerance are
mandatory.
1. Dimension test (IS: 1077): While preparing the estimate
standards sizes of the bricks are
considered and the numbers of bricks to be used in the structure
are estimated. If the dimensions
of the bricks will have deviated more than the permitted, the
estimated cost will inflate. Further,
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more numbers of bricks-bats or plaster/mortar will be required
to make up the standard
dimensions specified on drawings for constructions. This may
disturb the regular specified type
of pattern (bond) and may impair the strength and consequently
cracks may develop.
For example, 20 pieces of bricks out of selected pieces are
taken and laid flat as shown in the
figure below. They are arranged height, length and width by
changing the order every time and
the measurements are taking for height, length and width
respectively.
2. Water absorption (IS: 3495, part II): Fractured surface of a
burnt brick reveals a continuous
network of voids. The existence of minutes pores confers marked
capillary properties on bricks
ceramics. In particular all bricks absorb water by capillary
action. The percentage of water
absorption is a very valuable indication of the degree of
burning. Vitrification, in the true sense,
corresponds to such a degree of compactness that the absorption
of the bricks is not over 3 per
cent after 48 hours of immersion. It has been reported that for
absorption less than 5 per cent
danger from frost negligible.
Water absorption does not necessarily indicate the behavior of a
bricks in weathering. Low
absorption (
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produces a weak bond. The rate at which a brick absorbs water,
frequently called its suction rate,
may be measured by immersing one face of the bricks in water.
The one minute water uptake
(initial rate of absorption) is taken as the suction rate.
Bricks having a suction rate between 10 to
35 g per brick per minute are preferred for their superior
bonding properties. For long periods of
immersion in this test, the total weight of water absorbed per
unit area,
Where, A is the water absorption coefficient
And t is the time elapsed in the test.
The standard methods of finding the absorption value of the
brick are discussed below. If the
absorption by volume is desired it can be obtained by
multiplying the weight percentage by the
apparent specific gravity.
24 hours Immersion Cold Water Test: Dry bricks are put in an
oven at a temperature of 150 to
155C till these attain constant mass. The weight (W1) of the
bricks is recorded after cooling them
to room temperature. The bricks are then immersed in water at a
temperature of 27 2C for 24
hours. The specimens are then taken out of water and wiped with
a damp cloth. Three minutes,
thereafter it is weighed again and recorded as W2.
The water absorption in % =
The average water absorption shall not be more than 20 per cent
by weight up to class 12.5 and
15 per cent by weight for higher classes.
Five Hours Boiling Water Test: The weight of the oven dried
bricks (W1) is recorded as above.
Then the specimen is immersed in the water and boiled for five
hours, followed by cooling down
to 27 2C by natural loss of heat within 16-19 hours. The
specimen is taken out of water and
wiped with a damp cloth and weight is recorded as W3.
The water absorption in % =
100
3. Compressive strength Test (IS:3495 (Part II)): The crushing
affords a basis for comparing the
quality of bricks but is of little value in determining the
strength of a masonry wall, since the latter
depends primarily on the strength of mortar. Six bricks are
taken for the compressive strength test
although it may be found that an individual brick varies by 20%
or more from the average, the
permissible stresses allowed for load bearing walls take account
of this, being based on an average
strength if six bricks. It is, therefore, both unnecessary and
uneconomical to insist that every brick is
above certain strength. As a criterion of structural strength
for brick, the transverse failure in a wall or
pavement is likely to occur on account of improper bedment. For
testing bricks for compressive
strength from a sample the two bed faces of bricks are ground to
provide smooth, even and parallel
faces with frogs filled with hardened mortar. The bricks are
then immersed in water at room
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temperature for 24 hours. These are then taken out of water and
surplus water on the surface is wiped
off with cotton or a moist cloth. The frogs of bricks are
flushed level with cement mortar and the
brick is stored under damp jute bags for 24 hours followed by
its immersion in water at room
temperature for three days. The specimen is placed in the
compression testing machine with flat faces
horizontal and mortar filled face being upwards. Load is applied
at a uniform rate of 14 N/m2 per
minute till failure. The maximum load at failure divided by the
average area of bed faces gives the
compressive strength.
Compressive strength (N/mm2)=
The average of results shall be reported. The compressive
strength of any individual brick tested
in the sample should not fall below the minimum average
compressive strength specified for the
corresponding class of brick by more than 20 per cent.
4. Warpage Test (IS:3495(Part IV)
The warpage of brick is measured with flat steel or glass
surface and measuring ruler graduated in 0.5 mm
divisions or wedge of steel 601515 mm.
Concave warpage
the brick is placed on the surface to be measured such that it
shows the greatest deviation from
straightness. The greatest distance of brick from edge of
straightness is measured by a ruler.
Convex warpage
the brick is placed on the plane surface with the convex surface
in contact with the flat surface and the
distances from the four corners to the flat surface is measured.
The largest distance is reported as
warpage.
5. Efflorescence test (IS:3495 Part III)
The ends of bricks are kept in a 150 mm diameter porcelain dish
and immersed in 25 mm depth of water
at room temperature. After all water is gone, either through
absorption or evaporation it is again filled till
25 mm and made to be absorbed or evaporated. Presence of
efflorescence is classified as follows:
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Nil When the deposit of efflorescence is imperceptible.
Slight when deposit of efflorescence doesnt cover more than 10 %
of the exposed area of the
brick.
Moderate when deposit of efflorescence is more than 10 % of the
exposed area but less than
50% .
Heavy when deposits of efflorescence is more than 50 % but it
doesnt flake away the surface
of the brick.
Serious when deposits are heavy and flake away the brick
surface.
1.10 ADVANTAGES AND LIMITATIONS OF BRICKS
1.10.1 Advantages.
Uniformity is size and shape. Therefore it can be easily laid in
masonry.
Unlike stone brick do not need dressing. Therefore there is
reduction time and labor and
moreover skilled labor is not needed.
Cheaper than stone. Though same quantity of brick cost more than
same quantity stone. More
expenditure is consumed on processing of stone masonry, such as
breaking of stone into smaller
size and dressing.
Smaller in size and lighter therefore less effort is required
while building brick masonry.
1.10.2 Disadvantage.
Bricks are less durable than stone.
Plastering is required.
Alkalis & salts present in the brick earth have hygroscopic
properties. They absorb moisture from
the air and creating a damp and unhygienic condition
1.11 MARKET SURVEY
Code Description Units P/ling GP SJ
MT0125 Bricks 2nd
class 1000# 7250 8000 78333.33
MT0126 Brick aggregate Cu.m 1066.21 1664.24 877.25
MT0127 Graded brick aggregate cu.m 1251.60 1164.24 957.00
MT0128 Interlocking cement earth bock
(300mmx150mmx100mm)
1000# 27300 32300 38300
MT1029 Interlocking cement earth block
(250mmx125mmx100mm)
1000# 15700 18200 21300
MT0130 concrete block bricks 1000# 11000 10500 1300
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Bricks aggregate Graded brick aggregate
interlocking cement block concrete brick blocks
1.11.1 General Price of bricks in India
Bricks-18000/lorry load.
Mud bricks Rs.1.50-1.75 per piece (Price depends upon thickness
and finishing)
Mud bricks (light weight) Rs.2.50-2.75 per tons.
Fly ash/Hallow bricks Rs.3.25 and more.
Mud bricks and its house. Fly ash bricks
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1.11.2 Advantages of fly ash bricks
High compressive strength
Lower water absorption
Dimensional accuracy through uniform shape
High strength to weight ratio
No emission of greenhouse gases during production
Zero efflorescence
Consume less mortar in construction
1.11.3 Prices of bricks in Jaigoan
1st class- Rs.8-9 regular size.
2nd class-Rs.6-7 regular size.
They import from Assam, Guwati, Bihar and west Bengal. But most
of the time they import from
Assam and Guwati.
From there, they deal to local contactors and especially to
Bhutan as per their demand.
While Bhutanese contactors are importing bricks from Jaigoan,
Govt. of Bhutan charge a tax of
5% on the total amount.