FERROUS METALS
A ferrous material
is the one in which iron is a main constituent. Iron ore is first converted
into pig iron and then pig iron is subjected to various metallurgical processes
to mix different percentage of carbon and to get the following three useful
ferrous materials:
1. Cast iron—carbon
content 1.7% to 4.5%
2. Wrought iron—carbon
content 0.05% to 0.15%
3. Steel—carbon
content 0.25% to 0.25%.
All ferrous materials
contain about 0.5 to 3% silica, less than 2% manganese, 0.15% sulphur and 0.6%
phosphorous.
1. Cast Iron: Important
properties of cast iron are:
(a) Compression
strength is 700 N/mm2 and tensile strength is 150 N/mm2.
(b) It is brittle
and does not absorb shocks
(c) Its specific
gravity is 7.5.
(d) Its structure is
coarse, crystalline and fibrous.
(e) It cannot be
magnetised.
(f) It does not
rust-easily.
(g) It has low melting
point of about 1200°C.
Uses of Cast Iron:
(a) 1. It is used
for making rain water and sanitary pipes, sanitary fittings and manhole covers.
2. It is used for
making railings and spiral stair cases.
3. Fire gratings,
cover for pumps and motors and brackets are made with cast irons.
2. Wrought Iron: It
is almost pure iron. It contains less than 0.15% carbon. Attempts are made to
reduce the other impurities during the process of manufacturing.
Properties of
Wrought Iron:
1. Its ultimate
compressive strength is 200 N/mm2 and ultimate tensile strength is 375 N/mm2.
2. It is ductile and
brittle.
3. Its unit weight
is 77 kN/m3.
4. It melts at about
1500°C. It becomes so soft at 900°C that two pieces can be joined by
hammering.
5. It can absorb
shocks very well.
6. It forms temporary
magnets but it cannot be magnetised permanently.
7. It rusts more
easily.
Uses of Wrought
Iron:
1. It is used for
making nails nuts and botts, wires and chains.
2. It is used for
making roofing sheets, grills, fences, window gaurds etc.
3. Steel: It is
extensively used building material. The following three varieties of steel are
extensively used:
(a) Mild steel
(b) High carbon
steel and
(c) High tensile
steel.
(a) Mild Steel: It
contains a maximum of 0.25% carbon, 0.055% of sulphur and 0.55% of phosphorus.
Properties of Mild Steel:
(i)
It is malleable and ductile
(ii) It is more
elastic
(iii) It can be
magnetized permanently.
(iv)
Its specific
gravity is 7.8.
(v) Its Young’s
modulus is 2.1 × 105 N/mm2.
(vi)
It can
be welded easily.
(vii) It is equally
strong in tension and in compression.
Uses of Mild
Steel:
(i)
Round bars are extensively used as reinforcement in R.C.C. works.
(ii) Rolled sections
like I, T, L, C, plates etc. are used to build steel columns, beams, trusses
etc.
(iii) Tubular sections
are used as poles and members of trusses.
(iv)
Plain and
corrugated mild steel are used as roofing materials.
(v) Mild steel sections
are used in making parts of many machineries.
(b) High Carbon
Steel: The carbon containts in this steel
is 0.7% to 1.5%.
Properties of Carbon
Steel:
(i)
It is more tough and elastic compared to
mild steel.
(ii) Welding is
difficult.
(iii) It can be
magnetized permanently.
(iv)
It is stronger
in compression than in tension.
(v) It withstands
shocks and vibrations better.
Uses of High Carbon
Steel:
(i)
It is used for making tools such as drills, files, chisels.
(ii) Many machine
parts are made with high carbon steel since it is capable of withstanding
shocks and vibrations.
(c) High Tensile
Steel: It contains 0.8% carbon and 0.6% manganese. The strength of this steel
is quite high. High tensile
steel wires are used in prestressed concrete
works.