Module 1.1 Ferrous and Non-Ferrous Metals (1).pdf

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MODULE 1.1

FERROUS and NON-FERROUS METALS

ENGINEERING MATERIALS

Engineering Materials are materials of constructions used for the construction of buildings, bridges,
highways, fabrications machines, equipments, airplanes, ships, electrical applications, medical applications
and others, used commercially for engineering purposes. Examples of are metals, wood or lumber, sand and
gravel, cement, concrete products, plastics, rubber, leather, asbestos, mica, asphalt, ceramics, tiles, etc.

ENGINEERING MATERIALS ARE CLASSIFIED INTO TWO GROUPS:

a. Metallic Materials – are materials that contain metallic elements. They exhibit electrical and thermal
conductivity, malleability, ductility and luster.

Classification of Metallic Materials

Ferrous materials - materials that contain iron as base metal or known as iron base metal.
Examples are steels and cast iron.
Non-ferrous Materials -are materials that do not contain iron as base metal or known as non-iron
base metal. Examples are copper, silver, gold, bronze, brass and lead.

b. Non-Metallic Materials are materials that do not recognized metallic characteristics such as plastics,
Teflon, wood, rubber, glass, fiber glass, resin and cement, etc.

c. Metalloids – materials that possess properties of both metals and non-metals. They have physical
appearance of metals and brittle. Examples are boron, silicon, germanium, arsenic, tellurium and
antimony.

PROPERTIES, CHARACTERISTICS, LIMITATIONS AND APPLICATIONS OF FERROUS METALS

1. Wrought Iron
As early as 1855 wrought iron was the most important metallic material for general structural purposes.
It is a mechanical mixture of very pure iron and a silicate slag. The slag is distributed throughout the iron-
based metal in the form of threads or fibers. Wrought iron is made by puddling process. It is readily worked
by forging, bending and drawing. Wrought iron is composed primarily of iron with 1 to 2% of added slag, the
byproduct of iron ore smelting, generally a mix of silicon, sulfur, phosphorous, and aluminum oxides. During
manufacture, the iron is removed from heat and worked with a hammer while still hot to get it into its
intended final form.

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 Properties/Characteristics Limitations Applications/Uses
1. Soft and malleable 1. Corrosion of wrought iron occurs 1. Use for making pipes and
2. Possess toughness in different forms such as tubes due to its superior
3. Fatigue resistant general, pitting and stress corrosion and fatigue
4. Other mechanical properties corrosion cracking due to its resistance and better welding
and corrosion resistance are fibrous structure. and threading qualities.
good depending upon the 2. The material 2. Use for machine parts such
orientation of the slag deterioration occurs gradually as rods and shafting.
5. High ductility and can be easily over long periods of time, at 3. Use for making special chains
forged and weld. predictable rates, and requires and crane hooks due to its
appropriate routine or good weldability and high
preventive maintenance to impact strength.
control.

2. Steel Forging
They are steels that are created through steel forging process. It is an alloy of carbon and iron that is
compressed under extreme pressure to make a very hard and strong substance. Moreover, it is
formed by the application of thermal and mechanical energy to steel billets or ingots to cause the
material to change shape while in a solid state.

Properties/Characteristics Limitations Applications/Uses
1. Possess good impact and shear 1. Difficulty to perform secondary 1. Ability to resist corrosion and
strength. operations. heat
2. It has tight grain structure 2. Use for flanges, valve bodies
making it mechanically strong and stems due to its ability to
and wear resistant. withstand high pressure and
3. It offers great response to heat freedom from porosity.
treatment. 3. Use for making tee, elbows,
4. The defects such as porosity reducers and other pipe
and formation of cavities can fittings expose to high
be avoided temperature and pressure.
4. Use for making disc and
hubs.

3. Cast Iron
Cast iron is an alloy of iron and carbon. In general alloys containing more than 1.7% carbon are referred
to as cast iron. Being responsible for approximately 25% of the total engine weight, cast iron ranks second
among the materials used in the construction of large diesel engines.
Cast iron is made when pig iron is re-melted in small cupola furnaces (similar to the blast furnace in
design and operation) and poured into molds to make castings
In terms of cost per unit mass, cast iron is the cheapest metallurgical material available to a marine
engineer. In fact it is re-melted pig iron, the composition of which has undergone some adjustments during
the melting process.

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 Properties/Characteristics Limitations Applications/Uses
Grey Cast Iron
1. Grey cast iron is widely used for 1. Susceptible to corrosion. 1. Used chiefly for parts that are not
general engineering applications, subjected to severe tensile stress,
due to its cheapness and ease of such as machine tool beds, large
casting. pipes, pump housings, pulleys and
2. Tensile strength is 150 to 400 machine frames.
N/mm2. 2. Use for major components of large
3. Brittle and has a compressive engines such as cylinder liners,
strength which is three to four cylinder blocks, flywheels, cylinder
times than its tensile strength. cover and crankcases.
4. Easily cast to a desired shape and 3. Use as material for propellers
easily machined.
5. Resistance to chemicals, water, gas
and steam.
6. Good wear resistance
Malleable Cast Iron
1. Greater tensile strength, impact 1. Since the malleable cat 1. Use for differential and steering
and fatigue strength than grey cast iron are made tough and gear housings, hubs, flanges,
iron. machinable by an valve parts for marine, brake
2. Good machinability annealing process, pedals in automobiles
therefore it cannot be
formed into large
section (up to 50 kg) due
to limitation in the
capacity of heat
treatment equipment.
2. Susceptible to corrosion.
Spheroidal Graphite / Ductile / Nodular Cast Iron
1. Has the same ductility, strength 1. Susceptible to corrosion. 1. Use for equipment used to
and toughness with steel. conduct fluids such as valves and
2. Can be used as substitute for steel, pump bodies.
when cast into shaped it can 2. Use for machinery parts which
reduced machining cost. require a fair degree of
3. Tensile strength is 370 to 800 toughness with high yield
N/mm2. strength such as gears,
crankshafts and other
automotive and machine
components.
3. Use for diesel engines cylinder
head and cover.
4. Use as material for propellers

Microstructure of Cast Iron
a. Grey cast iron
b. Malleable cast iron
c. Spheroidal graphite cast iron

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4. Steel

An alloy of iron and carbon in which the content of carbon does not exceed to 1.7%. Steel is produced
from pig iron and/ or scrap iron by several processes with the removal of some carbon and several amounts
of sulphur, phosphorus, manganese and silicon.

Plain carbon Steel- is a steel which contain only iron and carbon, with some other impurities, while steels
containing several elements that were intentionally added are classified as alloy steel.

CLASSIFICATION OF PLAIN CARBON STEEL (according to its carbon content)

CARBON CONTENT, % CLASSIFICATION
0.05-0.15% Very low-carbon steel
0.15-0.30% Low-carbon steel
0.30-0.60% Medium-carbon steel
0.60-0.90% High-carbon steel
0.90-1.50% Very high-carbon steel

Properties/Characteristics Limitations Applications/Uses
Low Carbon Steel - also referred as mild steels. If the carbon content is kept between 0.1% and 0.15%, the steel
is often referred to as ‘ dead mild ’ steel.
1. Very ductile and very soft, 1. Low in strength and hardness 1. Tubing, pipes, wires, rods, rivets,
2. Can be pressed into 2. Unresponsive to heat treatment screws, case hardened parts.
complicated shapes without due to low carbon content
cracking.
3. Easily machined using high
speed cutting tools
Medium Carbon Steel
1. Harder, stronger and tougher 1. Cannot be bent or formed in 1. Shafting, axles, rods, gear,
than low carbon steels cold condition since it will result connecting rods, wire for
2. They can be hardened by cracking springs, case-hardened large
direct heating and quenching, sections
and tempered to improve the 2. Suitable for heat-treated
mechanical properties machine parts.
3. Large forgings, heavy duty gears
High Carbon steel
1. Harder and less ductile than 1. Unsuitable for cold working 1. Shear blades, band saw,
low and medium carbon steel. 2. Difficult to weld hammers, wrenches, cold
2. Easily hardened by heat chisels, pickaxes
treatment. 2. Cutting and blanking punches
3. Good shock resistance. and dies, rock drills, hand tools,
chisel.

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5. CAST STEEL
Cast steel is a ferrous alloy with a maximum carbon content of approximately 0.75%. Steel castings are
solid metal objects produced by filling the void within a mold with liquid steel. Mechanical properties for cast
steel are generally lower than wrought steels, but with the same chemical composition.

Properties/Characteristics Limitations Applications/Uses
1. Can withstand high 1. Lesser abrasion resistance, 1. Use for diesel engines cylinder head and
tensile stress and vibration absorption, cover.
dynamic load. liquidity and casting 2. Use for diesel engines piston rod.
performance compared to
cast iron.
2. The toughness of cast steel
is severely reduced at low
temperatures.

6. ALLOY STEEL
ALLOY STEEL is a steel alloyed with other elements in amount of between 1 and 50% by weight to improve
its mechanical properties. Alloy steels are classified into two groups; low alloy steel and high alloy steels.
Common alloying elements are molybdenum, manganese, nickel, chromium, vanadium, silicon and boron.
Most alloy steel is medium- or high-carbon steel to which various elements have been added to modify its
properties to an appreciable extent;

Properties/Characteristics Limitations Applications/Uses
1. Greater strength, 1. Difficult to machine due to 1. Stainless steel – low carbon steel with
hardness, wear its hardness. additions of 4-6% chromium. They are
resistance and 2. Usually requires heat commonly used in gas turbine
toughness than plain treatment in order to compressor, propeller shaft, gravity disc
carbon steel. achieve the enhance and bowl body of purifiers.
2. Hot hardness in which it mechanical properties 2. Nickel steel (forged) – used as a material
can retain its hardness
for the crankshaft of diesel engine
at high temperature.
3. Low alloyed Cr –Mo steel which has
tensile strength (590-680) N/mm2 - used
as a material for the crankshaft of diesel
engine
4. Low alloy steels containing molybdenum
and chromium or chromium and
vanadium – used for steam turbine casing
operating above 400⁰C.
5. High alloy steel (contains 9-12%
chromium) – used as material for gas
turbine casing.

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PROPERTIES, CHARACTERISTICS, LIMITATIONS AND APPLICATIONS OF NON-FERROUS METALS

1. Aluminum
Aluminum is the most common metal of earth’s crust, being found in clays, kaolin, and certain rocks.
Aluminum is characterized by its extreme lightness in weight
Properties/Characteristics Limitations Applications/Uses
1. Pure aluminum is light, soft and 1. Requires processes to 1. Extensively used in bus bars and
ductile. be welded. high voltage electric lines
2. Corrosion resistant 2. Low tensile strength 2. When in pure state it can be
3. High heat and electrical 3. Weak when in pure formed as foil, powder, sheet,
conductivity. state and difficult to plate, rod, bar and wire.
4. Strength and hardness can be solder or weld. 3. It has the ability to be joined by
increased when alloyed with riveting, resistance and fusion
copper, magnesium, manganese, welding, brazing, and soldering.
silicon and zinc. 4. It is used for making vats and
5. One of the most important tanks in chemical industry.
characteristics of aluminum and 5. It is used for Alcladding
its alloys is the thin oxide film (aluminum sheet used to cover
which forms on their surfaces metal that is susceptible to
when exposed to the corrosion) to prevent the
atmosphere. If the oxide corrosion of the less resistant
film is broken it will reform metal or alloy.
quickly, and this gives these
materials excellent corrosion
resistance.

2. Copper
Copper ranks next to iron and steel in terms of commercial importance because of its electrical
conductivity and capacity to form useful alloys such as brass, bronze and monel metal.

Properties/Characteristics Limitations Applications/Uses
1. High thermal and electrical 1. Unsuitable for structural 1. Copper can be formed into tube
conductivities. The electrical and purposes due to its low or pipe used for water lines and
thermal conductivities of high- tensile strength in industrial stills, evaporators,
purity copper are greater than and condensers.
those of any other metal except 2. Use for making electrical wires.
silver 3. Use for form important alloys
such bronze, brass and monel
2. Excellent corrosion-resistance to
metal.
chemicals,
water and the atmosphere.
3. Possess ductility and malleability
making wire drawing and sheet
rolling easy.

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3. Lead
Lead is a bluish-white lustrous metal.

Properties/Characteristics Limitations Applications/Uses
1. High corrosion resistance 1. Low mechanical strength 1. It can be extruded into pipes
2. Lead in pure state is very soft and 2. Tarnishes upon exposure that can be used chemical
highly malleable to air plants and can be rolled into
3. Ductile sheet for tank linings since lead
is not affected by water, air and
sulfuric acid.
2. Use as form important alloys
such as bearing materials,
solder or type metals.

4. Zinc
A silvery white metal with a blue tinge. Used as protective film in base metal that are prone to corrosion.

Properties/Characteristics Limitations Applications/Uses
1. Brittle at room temperature. 1. Weak metal with tensile 1. Use to manufacture brass
2. Corrosion resistance strength less than half of 2. Use as protective coating in the
3. Ductile and malleable when mild carbon steel process of galvanizing and
heated between 110ᵒC to 2. Cannot be used in load sherardizing.
150ᵒC. bearing applications.

5. Chromium
Chromium is a lustrous, brittle, hard metal that can take a high mirror polish. Its color is silver-gray and it can
be highly polished.

Properties/Characteristics Limitations Applications/Uses
1. Magnetic and hard metal 1. Brittle when in pure state 1. Use as an alloying to steel in
2. High corrosion resistance order to make high chromium
3. Highly resistant to tarnishing steels. High-chromium steels
are used to resist corrosion, to
impart wear resistance and to
increase the creep strength for
the high-temperature services.
2. Onboard applications of
chromium as an alloying
element of steel are:
a. Steam-generating plant - boiler
plates and tubes, super heater
headers and tubes, bodies of
valves, soot blower elements,
extraction pump shafts, air

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 ejector nozzles, feed pump
impeller and shaft
b. Diesel engine- valve seats, fuel
valves, fuel nozzles, exhaust
valves, valve guides, crankshaft,
piston rings, connecting rod
bolts, etc.

6. Manganese
Manganese is a steel-gray, hard, shiny, brittle metal.
Properties/Characteristics Limitations Applications/Uses
1. Hard and very brittle 1. Cannot be machined when 1. Use as an alloying element to
in its pure form form monel metal that is used
2. Reacts rapidly in high for steam turbine casing.
temperature and may even 2. Use as an alloying element to
burn, giving off a bright steel.
white light.

7. Molybdenum
Molybdenum is a hard, silvery metal with a very high melting point. It is used primarily to make alloys
with other metals.

Properties/Characteristics Limitations Applications/Uses
1. High strength and hardness 1. Low temperature 1. Used as an alloying element to
2. Has high melting point embrittlement steel together with chromium
3. Low coefficient of thermal and vanadium. It is used as a
expansion material for steam turbine rotor
since molybdenum imparts
resistance to creep and
improved strength at elevated
temperatures.

8. Tungsten
Tungsten is a greyish-white lustrous metal, which is a solid at room temperature.

Properties/Characteristics Limitations Applications/Uses
1. Has the highest melting point 1. Crack sensitive metal and Tungsten carbide is used for
of any known metal which is usually brittle at room cutting tools and machining tools.
3380 ᵒC. temperature.
2. High tensile strength
3. Excellent corrosion resistance.

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9. Magnesium
Magnesium is a shiny, silver or gray colored metal that is light in weight and strong.

Properties/Characteristics Limitations Applications/Uses
1. Good castability 1. Low elastic modulus 1. Use as an alloying element
2. Lowest density of all metallic 2. Limited cold workability with aluminum to improve
constructional materials and toughness mechanical, fabrication and
3. Lightweight 3. Limited high strength and welding properties.
4. Corrosion resistant creep resistance at elevated 2. Use in the production of
temperatures nodular cast iron.
4. high degree of shrinkage
on solidification

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