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Cast IronCreated
BY
Contents :
History of Cast iron
Introduction of Cast iron
Types of Cast iron
Properties of Cast iron
Advantages of Cast iron
Limitations of Cast iron
Application of Cast iron
HISTORY OF CAST IRON : Cast iron has its earliest origins in China between 700 and 800 BC and in Europe it
was first known in the 14th century.
Until this period ancient furnaces could not reach sufficiently high temperatures.
The use of this newly discovered form of iron varied from simple tools to a complex chain suspension bridge erected approximately 56 A.D.
Cast iron was not produced in mass quantity until fourteenth century A.D.
In 1325 A.D. water driven bellows were introduced which allowed for a greater draft to be fed to the pit, thus increasing temperatures.
The next significant development in cast iron was the first use of coke
in 1730 by an English founder named Darby.
Coke could be used more efficiently than coal, thus lowering the cost
and time necessary to yield a final product.
In 1885 Turner added ferrosilicon to white iron to produce stronger
gray iron castings.
In the later 20th century the major use of cast irons consisted of
pipes, thermal containment units, and certain machine or building
entities which were necessary to absorb continuous vibrations.
Introduction of Cast iron :
Cast iron is the name given to those ferrous
metals containing more than1.7 % carbon.
It is similar in composition to crude pig iron
as produced by the blast furnace.
Its structure is crystalline and relatively
brittle and weak in tension.
COMPOSTION OF CAST IRON :
Carbon - 2.5 to 3.7%
Silicon - 1.0 to 3.0%
Manganese - 0.5 to 1.0%
Phosphorus - 0.1 to 0.9%
Sulphur - 0.07 to 0.10%
CLASSIFICATIONS OF CAST IRON :
1.WHITE CAST IRON
2.GRAY CAST IRON
3.DUCTILE (NODULAR) CAST IRON
4.MALLEABLE CAST IRON
There are Four Types Of Cast Iron . They are:-
1.WHITE CAST IRON :-
These are iron-carbon alloys having more than 2.11% carbon.
All the carbon is present in the combined cementite form, which makes the fracture of these alloys to have dull and white colour, and that is the reason of their name as white irons.
Composition:
C=2.5%,Mn=0.4%,
Cr=17%,Si=1.3%,
Ni + Cu %,P=0.15%,
S=0.15%,Mo=0.5% Decorated furnitures
2.GREY CAST IRON :- Iron-carbon alloys containing flakes of graphite embedded in steel
matrix, which show a gray -blackish coloured fracture due to graphite’—the free foam of carbon, are called gray cast irons.
The strength of gray iron depends on the strength of steel matrix and the size and character of graphite flakes in it.
COMPOSITION:
Total carbon : 2.4—3.8%
Silicon : 1.2—3.5%
Manganese : 0.5—1.0%
Sulphur :0.06—0.12%
Phosphorus :0.1—0.9%
Internal combustion engineCast iron cookware
3.MALLEABLE CAST IRON :- Malleable iron is cast as White iron, the structure being a
metastable carbide in a pearlitic matrix.
Graphite in nodular form
Produced by heat treatment of white cast iron
Graphite nodules are irregular clusters
Similar properties to ductile iron.
Composition of Malleable Iron :-
4.DUCTILE(NODULE) CAST IRON:- In ductile irons, the graphite is in the form of spherical nodules rather
than flakes (as in grey iron), thus inhibiting the creation of cracks and providing the enhanced ductility.
Also known as spheroidal graphite (SG), and nodular graphite iron
COMPOSITION:
A TYPICAL CHEMICAL ANALYSIS OF THIS MATERIAL
IRON CARBON 3.3 TO 3.4%
SILICON 2.2 TO 2.8%
MANGANESE 0.1 TO 0.5%
MAGNESIUM 0.03 TO 0.05%
PHOSPHORUS 0.005 TO 0.04%
SULPHUR 0.005 TO 0.02%
TractersPipes
PROPERTIES OF CAST IRON :
It is strong in compression but weak in tension.
The tensile and compressive strength of cast iron of average quality is
150N/mm²and 600N/mm² resp.
It does not rust easily.
If placed in salt water, it becomes soft.
low melting point
Good fluidity
It is hard but it is brittle also.
It is not ductile hence it cannot be adopted to absorb shocks and impacts.
Its melting temperature is about 1250⁰C.
It shrinks on cooling.
DISADVANTAGES: Cast Iron Weight :
Cast iron is very heavy, and consequently is mush harder to install than regular PVC/ABS sewer pipe
Brittleness:
It is quite brittle and if accidentally knocked will easily break.
Resistance towards heat:
Its strength and stiffness deteriorate when subjected to high heat, such as in a fire.
weak in tension and bending, so can’t be used as beams
Can’t overcome from Environmental causes Or can’t absorb sudden shocks
ADVANTAGES OF CAST IRON :-
• Good castability (low Tm, good fluidility)
• Good machinability (graphite cast irons)
• Antivibration properties
• Low stress concentration
• Sensibility
APPLICATIONS OF CAST IRON:
Cast iron is used in a wide variety of structural and decorative applications, because it is relatively , inexpensive, durable & easily cast into a variety of shapes.
Construction of machines and structures (High Tensile Strength)
As Columns , balusters & Arches (High Compressive Strength)
Machine and car parts like
Cylinder heads
blocks
gearbox cases
cookware
pipes etc.
Swing Machine Arches in bridge Columns
Stoves and fire backs , Vehicles engine(High thermal conductivity and specific heat capacity)
for Decorative purposes: (Good fluidity ,
Design made on column Gate design Stoves