CEMENT & Its Classification

CEMENT & Its Classification


Cement is a commonly used binding material in the construction. The cement is obtained by burning a
mixture of calcarious (calcium) and argillaceous (clay) material at a very high temperature and then
grinding the clinker so produced to a fine powder. It was first produced by a mason Joseph Aspdin in
England in 1924. He patented it as portland cement.

Types of Cement
In addition to ordinary portland cement there are many varieties of cement. Important varieties are
briefly explained below:

(i) White Cement: The cement when made free from colouring oxides of iron, maganese and
chlorium results into white cement. In the manufacture of this cement, the oil fuel is used instead of coal
for burning. White cement is used for the floor finishes, plastering, ornamental works etc. In swimming pools white cement is used to replace glazed tiles. It is used for fixing marbles and glazed tiles.

(ii) Coloured Cement: The cements of desired colours are produced by intimately mixing
pigments with ordinary cement. The chlorium oxide gives green colour. Cobalt produce blue colour.
Iron oxide with different proportion produce brown, red or yellow colour. Addition of manganese dioxide gives black or brown coloured cement. These cements are used for giving finishing touches to floors, walls, window sills, roofs etc.

(iii) Quick Setting Cement: Quick setting cement is produced by reducing the percentage of
gypsum and adding a small amount of aluminium sulphate during the manufacture of cement. Finer
grinding also adds to quick setting property. This cement starts setting within 5 minutes after adding
water and becomes hard mass within 30 minutes. This cement is used to lay concrete under static or
slowly running water.

(iv) Rapid Hardening Cement: This cement can be produced by increasing lime content and
burning at high temperature while manufacturing cement. Grinding to very fine is also necessary. Though the initial and final setting time of this cement is the same as that of portland cement, it gains strength in early days. This property helps in earlier removal of form works and speed in construction activity.

(v) Low Heat Cement: In mass concrete works like construction of dams, heat produced due to
hydration of cement will not get dispersed easily. This may give rise to cracks. Hence in such constructions it is preferable to use low heat cement. This cement contains low percentage (5%) of tricalcium aluminate (C3A) and higher percentage (46%) of dicalcium silicate (C2S).
(vi) Pozzulana Cement: Pozzulana is a volcanic power found in Italy. It can be processed from
shales and certain types of clay also. In this cement pozzulana material is 10 to 30 per cent. It can resist action of sulphate. It releases less heat during setting. It imparts higher degree of water tightness. Its tensile strength is high but compressive strength is low. It is used for mass concrete works. It is also used in sewage line works.

(vii) Expanding Cement: This cement expands as it sets. This property is achieved by adding
expanding medium like sulpho aluminate and a stabilizing agent to ordinary cement. This is used for
filling the cracks in concrete structures.

(viii) High Alumina Cement: It is manufactured by calcining a mixture of lime and bauxite. It is
more resistant to sulphate and acid attack. It develops almost full strength within 24 hours of adding
water. It is used for under water works.

(ix) Blast Furnace Cement: In the manufacture of pig iron, slag comes out as a waste product.
By grinding clinkers of cement with about 60 to 65 per cent of slag, this cement is produced. The
properties of this cement are more or less same as ordinary cement, but it is cheap, since it utilise waste product. This cement is durable but it gains the strength slowly and hence needs longer period of curing.

(x) Acid Resistant Cement: This cement is produced by adding acid resistant aggregated such
as quartz, quartzite, sodium silicate or soluble glass. This cement has good resistance to action of acid
and water. It is commonly used in the construction of chemical factories.

(xi) Sulphate Resistant Cement: By keeping the percentage of tricalcium aluminate C3A below
five per cent in ordinary cement this cement is produced. It is used in the construction of structures
which are likely to be damaged by alkaline conditions. Examples of such structures are canals, culverts etc.

(xii) Fly Ash Blended Cement: Fly ash is a byproduct in thermal stations. The particles of fly ash
are very minute and they fly in the air, creating air pollution problems. Thermal power stations have to spend lot of money to arrest fly ash and dispose safely. It is found that one of the best way to dispose fly ash is to mix it with cement in controlled condition and derive some of the beneficiary effects on cement. Now-a-days cement factories produce the fly ash in their own thermal stations or borrow it from other thermal stations and further process it to make it suitable to blend with cement. 20 to 30% fly ash is used for blending.

Fly ash blended cements have superior quality of resistance to weathering action. The ultimate
strength gained is the same as that with ordinary portland cement. However strength gained in the initial stage is slow. Birla plus, Birla star, A.C.C. Suraksha are some of the brand mame of blended cement.

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1 comments:

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February 22, 2023 at 6:53 PM delete

The construction industry relies heavily on cement for several reasons, including:

Concrete, such as buildings, bridges, roads, and dams, is bound with cement, which is used to hold the materials together.

The structure is sturdy and durable because of the cement, which provides strength and durability.

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