PRESENTATION ON CONCRETE

Details Of Construction
Section: Civil 7c Group No: 01
Sonargaon University
Course Teacher: Tanjinur Akter
Lecturer & Assistant Coordinator,
Department of Civil Engineering,
Sonargaon University
Group Leader: Asaduzzaman Emran
Topic: Concrete

Concrete
The word concrete comes from the Latin word "concretus". Which
means compact.
Now a days concrete is most common and necessary things in our life.
It’s a composite material composed of coarse aggregate bonded
together with a fluid cement which hardens over time. It’s an artificial
stone made of sand, stone, water & cement.

History
The history of cementing materials together goes back to
the time when prehistoric man prepare his cave to build
shelter.
He used mud and clay to fill the gap between stone. To
keep out the wind and cold.
Later the Assyrians and Babylonians used clay as their
bonding substance and straw to make a shape.
The Egyptians used lime and gypsum and crushed stone to
create a material that would harden even better.

Then the Roman made cement and they learn how to use volcanic ash. After that they
built lots of structure like Pantheon, Colosseum, Trajan's Column.
After the Roman Empire collapsed, use of concrete became rare until the technology
was redeveloped in the mid18th century.

Classification of Modern concrete:
Today, concrete is the most widely used manmade material and Concrete are
classified into different types:
1. According to binding material used in concrete.
1. Cement concrete.
2. lime concrete.
2. According to design of concrete.
1. Plain cement concrete.
2. Reinforced cement concrete(RCC).
3. Pre-stressed cement concrete(PCC).
3. According to purpose of concrete.
1. Vacuum concrete:
2. Air entrained concrete
3. Light weight concrete

CLASSIFICATION ACCORDING TO BINDING
MATERIAL:
Cement concrete
The concrete consisting of cement, sand and coarse aggregates mixed in a suitable
proportions in addition to water is called cement concrete. In this type of concrete cement
is used as a binding material, sand as fine aggregates and gravel, crushed stones as coarse
aggregates.
USES
cement concrete is commonly used in buildings and other
important engineering works where strength and durability is of
prime importance.

LIME CONCRETE
The concrete consisting of lime, fine aggregates, and coarse aggregates mixed in a
suitable proportions with water is called lime concrete.
In this type of concrete hydraulic lime is generally used as a binding material, sand and
cinder are used as fine aggregates and broken bricks, gravel can be used as coarse
aggregates.
PLACING OF LIME CONCRETE :
Placing of concrete shall be completed within three hours of adding
water in case of concrete is prepared with hydraulic lime.
Concrete should be well cured for a period of at least 10 days.
USES:
Lime concrete is generally used for the sake of economy in
foundation works, under floors, over roof and where cement is not
cheaply and easily available in required quantity.

CLASSIFICATION ACCORDING TO DESIGN OF
CONCRETE
PLAIN CEMENT CONCRETE
The cement concrete in which no reinforcement is provided is called plain cement
concrete or mass cement concrete.
This type of concrete is strong in taking compressive stresses but weak in taking
tensile stresses.
USES:
Plain cement concrete is commonly used in for
foundation work and flooring of buildings.

REINFORCED CEMENT CONCRETE(RCC)
The cement concrete in which reinforcement is embedded for taking tensile stress
is called reinforced cement concrete.
In this type of concrete the steel reinforcement is to be used generally in the form
of round bars,6mm to 32mm dia. This concrete is equally strong in taking tensile,
compressive and shear stresses.
USES:
RCC is commonly used for construction of slabs, beams,
columns, foundation, precast concrete.

PRE-STRESSED CEMENT CONCRETE (PCC)
The cement concrete in which high compressive stresses are artificially
induced before their actual use is called pre-stresses cement concrete.
In this type of cement concrete, the high compressive stresses are
induced by pre-tensioning the reinforcement before placing the
concrete, and the reinforcement is released when final setting of the
concrete take place.
Uses : This concrete can take up high tensile and compressive
stresses without development of cracks. The quantity of
reinforcement can be considerably reduced by using this
concrete.

CLASSIFICATION ACCORDING TO PURPOSE
According to purpose concrete is classified into following types.
a. Vacuum concrete:
The cement concrete from which entrained air and excess water is removed
after placing it, by suction with the help of vacuum pump is called vacuum concrete.
In this concrete the excess water which is added to
increase workability but not required for the hydration of
cement of concrete is removed by forming vacuum
chamber

b. Air entrained concrete
The concrete prepared by mixing aluminum in it is called air entrained ,cellular or
aerated concrete. In this concrete bubbles of hydrogen gas are liberated which
forms cell and make the concrete cellular.
USES: This concrete is used for lining walls and
roofs for heat and sound insulation purpose.

c. Light weight concrete
The concrete prepared by using coke breeze, cinder or slag as coarse
aggregate is called light weight concrete. The concrete is light in weight
and posses heat insulating properties.
USES
This concrete is used in making precast
structural units for partition and wall lining.

Cement, Stone And Sand Ratio
DESCRIPTION OF WORK GRADE OF CONCRETE
Concrete in columns, beams. 1:1:2
Water retaining structures, Piles,
precast work or dense Concrete.
1:1.5:3
RCC beams, slabs, columns. 1:2:4
Foundations for buildings, Mass
reinforced works.
1:3:6
For mass concrete work. 1:4:8

WATER CEMENT RATIO
For different ratio of concrete the amount of water for 50kg of cement is
Concrete ratio Water quantity
1:3:6 34 liter
1:2:4 30 liter
1:1.5:3 27 liter
1:1:2 25 liter
• In the preparation of concrete the water cement ratio is very important
• For normal construction the water cement ratio is usually 0.5
• Adding to much water will reduce the strength of concrete and can cause
segregation.

WORKABILITY OF CONCRETE
• It is the amount of work required to place concrete and to compact it thoroughly.
• Workability of concrete increases with the addition of water but it reduces the
strength that’s why it is not a desirable way of increasing the workability.
• Use of aggregates which are round and have smooth surfaces increases the
workability.
• Workability could also be improved by adding air entraining agent such as vinsol
resin or Darex.
• Use of Lisapole liquid at 30 cubic centimeter per bag of cement improves not only
the workability but also the water tightness of concrete.
• Workability of concrete is better determine by compaction factor test.

PLACING OF CONCRETE
• After mixing of concrete it should be placed within 30min of adding of water.
• It should be quickly transported to the place of lying by means of iron pans
manually, in wheel barrows, by pumping or by cranes.
• In placing, concrete should be laid in thin layers. Each layer being thoroughly
consolidated, before the next one is laid.
• Concrete should not be dropped from a height as it would cause
segregation of aggregates.
• In case concrete has more of water or it has been laid in thick layers
then on compaction water and fine particles of cement comes at the
top forming a layer of weak substance known as laitance

COMPACTION OF CONCRETE
• Compaction of concrete is very important in developing qualities like strength,
durability, imperviousness by making the concrete dense and free from voids.
• In case of RCC compaction is done by pinning with an iron rod or even with
trowel blade.
• Excess temping should be avoided as otherwise water, cement and finer particles
would come to the surface and results in non uniform concreting.
• In case of important and big works, compaction of concrete is done with vibrator.
• Use of vibrator is best and the most efficient way of compacting concrete. It gives
very dense concrete.
• Care should be taken not to make excessive use of vibrators otherwise the
concrete becomes non homogeneous

CURING OF CONCRETE
• The process of keeping concrete wet to enable it to attain full strength is known as
curing.
• The objective of curing is to prevent loss of moisture from concrete due to
evaporation or because of any other reasons.
• Curing should be done for a period of three weeks but not less then 10 days.
• To do curing, any one of the following method can be used.
i. The surface of concrete is coated with a layer of bitumen
or similar other waterproofing compound which gets into
the pores of concrete and prevent loss of water from
concrete.
ii. Concrete surface is covered with waterproof paper or with
a layer of wet sand. It could also be covered with gunny
bags.

QUALITIES OF GOOD CONCRETE
• STRENGTH: The concrete should be able to withstand the stresses that it is
subjected to. It is quite strong in compression but weak in tension.
• DURABILITY: It should be durable enough to resist the effect of weathering
agents.
• DENSITY: the concrete should be well compacted so that there are no voids or
hollows left. It should weigh 3000 kg/cu.m
• WATER TIGHTNESS: when used for construction of water retaining structures
such as dams, elevated tanks and water reservoirs then this property of concrete
becomes very important. Otherwise the moisture inside the RCC would corrode
steel and leakage would start resulting in the ultimate failure of the structure.
• WORKABILITY: It should be easily workable.
• RESISTANCE TO WEAR AND TEAR: when used in floors and in the
construction of roads the concrete should be able to withstand abrasive forces.

PRESENTATION ON CONCRETE

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