The cast iron is obtained by re-melting pig iron with coke and limestone in a furnace known as cupola.
It is primarily an alloy of iron and carbon. The carbon contents in cast iron varies from 1.7 per cent to 4.5 per cent. It also contains small amounts of silicon,
manganese, phosphorous and sulphur. The carbon in a cast iron is present in either of the following two forms:
1. Free carbon or graphite, and 2. Combined carbon or cementite.
Since the cast iron is a brittle material, therefore, it cannot be used in those parts of machines which are subjected to shocks. The properties of cast iron which
make it a valuable material for engineering purposes are its low cost, good casting characteristics, high compressive strength, wear resistance and excellent machinability. The compressive strength of cast iron is much greater than the tensile strength. Following are the values of ultimate strength of cast iron :
Tensile strength = 100 to 200 MPa*
Compressive strength = 400 to 1000 MPa
Shear strength = 120 MPa
(1MPa = 1MN/m2 = 1 × 106 N/m2 = 1 N/mm2)
A TEXTBOOK OF Machine Design (S.I. UNITS)
[A Textbook for the Students of B.E. / B.Tech., U.P.S.C. (Engg. Services); Section ‘B’ of A.M.I.E. (I)]
R.S. KHURMI
J.K. GUPTA
2005
EURASIA PUBLISHING HOUSE (PVT.) LTD.
RAM NAGAR, NEW DELHI-110 055
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