Chemistry of Engineering Materials (Metals) PDF

Summary

This document is a module on the chemistry of engineering materials, focusing on metals. It details metal production processes, various types of metals, including ferrous and nonferrous metals, and explains the advantages and disadvantages of using metals as engineering materials. It also includes a discussion of corrosion.

Full Transcript

BATAAN HEROES COLLEGE

Module 4.1

CHEMISTRY OF
ENGINEERING MATERIALS
(METALS)
CHEMISTRY FOR ENGINEERS

GILLIAN ROSE R. SALVADOR, LPT
General Education Department

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Module 4.2: Chemistry of Engineering Materials (Metals)
Module Description
This module discusses the chemistry of metals as an engineering material.

Objectives of the Module:

At the end of this module the students should be able to:
1. Examine the advantages of metals as engineering materials;
2. Differentiate the metal production processes;
3. Classify types metals and their applications;
4. Assess the disadvantages of metals; and
5. Explain the concept of corrosion and ways to prevent it.

4.2.1. Metals
✓ one of the most important engineering materials
✓ Inorganic materials composed of metallic elements

4.2.2. Advantages of Metals as Engineering Materials
A. High stiffness and strength
✓ can be alloyed for high rigidity, strength, and hardness

B. Toughness
✓ capacity to absorb energy better than other classes of materials

C. Good electrical conductivity
✓ Metals are good conductors of electricity

D. Good thermal conductivity
✓ conduct heat better than ceramics or polymers

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E. Cost
✓ the price of steel is very competitive with other engineering materials

4.2.3. Metal Production
A. Mining
✓ process of removing the metal in its free or combined state from the Earth's surface

B. Purification
✓ process to separate the ore from waste
materials such as rocks sand and clay with
which it occurs
✓ Example: Froth Flotation- used with ores of
copper, zinc, and some other metals (ore is
turned into powder, mixed with water and
pine oil then air is introduced to produce
Froth Flotation
bubbles and froth, impurities settle and metal Source: Eddy Pump Corp., 2020
is adsorbed by pine oil and float to the top)

C. Reduction
✓ metals always occur in their oxidized state in
ores, often as the oxide or sulfide of the metal.
In order to convert an ore to its elemental
state, therefore, it must be reduced
✓ Example: Blast Furnace- cylindrical vessel
into which is fed iron ore with a temperature
of more than 1000˚C (carbon reacts with
oxygen forming carbon dioxide that reacts
with the oxides of iron to produce pure iron Blast Furnace
Source: Seefeldt, 2019
metal)

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4.2.4. Classification of Metals
A. Ferrous
✓ those based on iron
✓ Strongest materials available
✓ Used for applications where high strength is
required at relatively low cost and where
weight is not of primary importance
✓ Principal raw material for all ferrous metals
is pig iron which is obtained by smelting iron
ore with coke and limestone, in the blast
Classification of Ferrous Metals
furnace Source: Mahmood, 2014

B. Nonferrous
✓ all other metals
✓ Pure metals are rarely used as structural materials as they lack mechanical strength
✓ Used where their special properties such as corrosion resistance, electrical conductivity
and thermal conductivity are required
✓ Mainly used with other metals to improve their strength.
✓ Examples: Aluminum, magnesium, copper, nickel, titanium, zinc, lead, tin,
molybdenum, tungsten, gold, silver, platinum, and others

Alloy- a mixture or compound of two or more elements, at
least one of which is metallic
Alloying- Increase strength, hardness, and other properties
compared to pure metals

4.2.5. Ferrous Metals Alloys
A. Steel Source: Wu, n.d.

✓ alloys of iron and carbon, containing up to 1.5 % of carbon
✓ Applications: chemical pressure vessels, building construction, and machine parts

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✓ Stainless Steel- alloying element is chromium, usually greater than 15%
- forms a thin impervious oxide film that protects surface from corrosion

Agitator/Pressure Vessel (Stainless Steel)
Source: Zibo Fumin Chemical Equipment Co. Ltd, n.d.

B. Cast Iron
✓ obtained by re-melting pig iron with coke and limestone in a furnace known as cupola
✓ Alloy of iron and carbon, containing 1.7% to 4.5% carbon
✓ Low cost, good casting characteristics, high compressive strength, wear resistance and
excellent machinability
✓ Types of Cast Iron
1. Grey Cast Iron
- ordinary commercial iron
- Grey colour is due to the fact that the carbon is present in
the form of free graphite
- Free graphite in its structure acts as a lubricant and is very
suitable for those parts where sliding action is desired
- Applications: machine tool bodies, automotive cylinder Star Grip (Grey Cast
blocks, heads, housings, fly-wheels, pipes and pipe fittings Iron)
Source: Liaoning Borui
and agricultural implements. Machinery Co., Ltd., n.d.

2. White Cast Iron
- white colour is due to fact that it has no graphite and whole of the carbon is in the
form of carbide (known as cementite) which is the hardest constituent of iron

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- Hard and cannot be machined with ordinary
cutting tools but requires grinding as shaping
process

3. Malleable Cast Iron
- ductile and may be bent without breaking or White Cast Iron
fracturing the section
- Tensile strength usually higher than that of grey
cast iron and has excellent machining qualities
- Applications: machine parts for which the steel
forgings would be too expensive for a fair degree
of accuracy, e.g. brake supports, parts of
Malleable Cast Iron
agricultural machinery, pipe fittings, door hinges,
Source: Anupoju, 2016
locks, etc

4. Alloy Cast Iron
- produced by adding alloying elements like nickel,
chromium, molybdenum, copper and manganese
in sufficient quantities
- Has special properties like increased strength, high
wear resistance, corrosion resistance or heat
resistance
Alloy Cast Iron
- Applications: gears, automobile parts like Source: Indian Metal Cast, n.d.
cylinders, pistons, piston rings, crank cases,
crankshafts, camshafts, sprockets, wheels, pulleys,
brake drums and shoes, parts of crushing and
grinding machinery

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C. Wrought Iron
✓ purest iron which contains at least 99.5% iron but may
contain up to 99.9% iron
✓ Tough, malleable and ductile material
✓ Can be easily forged or welded
✓ Applications: chains, crane hooks, railway couplings,
water and steam pipes
Wrought Iron
Source: Kate, 2020

Classification of Non-Ferrous Metals
Source: Mahmood, 2014

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4.2.6. Non-Ferrous Metals
A. Aluminum
✓ white metal produced by electrical processes from its oxide
(alumina), which is prepared from a clay mineral called
bauxite
✓ Hard and rigid when upon addition of other alloys
✓ Can be formed, drawn, turned, cast, forged and die cast
✓ Has good electrical conductivity and high resistance to Aluminum
Source: earth.com, 2018
corrosion
✓ It is relatively lighter and non-toxic
✓ Applications: Overhead cables, cooking utensils, food
wrap, aircraft and automobile components

B. Copper
✓ soft, malleable and ductile material with a reddish-brown
appearance
✓ A good conductor of electricity
✓ Applications: electric cables and wires for electric
machinery and appliances, in electrotyping and
electroplating, in making coins and household utensils.
✓ Two Groups of Copper Alloys
1. Brass- Copper (50%)-zinc(50%) alloy
2. Bronze- Copper-tin alloy Copper, Brass, & Bronze
- composition is 75 to 95% copper and 5 to 25% Source: Metal Supermarket,
2015
tin

C. Lead
✓ bluish grey metal and is so soft that it can be cut with a knife
✓ Applications: lining for acid tanks, water pipes, and as Lead
coating for electrical cables. Source: Wahab, 2020
D. Tin
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✓ brightly shining white metal and is soft, malleable and
ductile
✓ It can be rolled into very thin sheets.
✓ Applications: fine solder, as a protective coating for iron
and steel sheets and for making tin foil used as moisture
Tin Cans
proof packing
Source: Seahath Canning
Company, n.d.
4.2.7. Disadvantages of Metals
A. Prone to corrosion
B. Relatively costly than thermoplastics
C. Design limitations
D. Production causes pollution

4.2.8. Corrosion
✓ the deterioration of materials by chemical interaction with their environment
✓ Most metals corrode on contact with water (and moisture in the air), acids, bases, and salts
✓ Metals will also corrode when exposed to gaseous materials like acid vapors, formaldehyde
gas, ammonia gas, and sulfur containing gases.
✓ Happens through a series of reduction-oxidation reactions
✓ Metal being corroded acts as the anode; the metal is oxidized, forming metal ions and free
electrons. The free electrons reduce the oxygen, often times forming hydroxide, and
providing a complimentary cathodic reaction

𝐹𝑒(𝑂𝐻)3 dehydrates to form 𝐹𝑒2 𝑂3 ∙ 𝑛𝐻2 𝑂

Corrosion Process
Source: Souza, 2014

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A. Some Ways to Prevent Corrosion of Metals
1. Painting
✓ forms a barrier between the metal and the environment

2. Sacrificial Anode
✓ utilization of a metal lower on the Galvanic Series to be attacked first, instead of the
metal in use

Review Questions

Instruction: Using the module as your guide, answer the following questions:
1. As the engineer in-charge, you are tasked to design equipment that is lightweight and
less prone to corrosion. What type of metal (ferrous or non-ferrous) will you use? Why?
______________________________________________________________________
______________________________________________________________________
2. Which among the three types of ferrous metals (steel, cast iron, and wrought iron) is the
hardest? Why?
______________________________________________________________________
______________________________________________________________________
3. What type of cast iron is best suited for making accurate machine parts?
______________________________________________________________________
______________________________________________________________________
4. Why is the production of metal causes environmental pollution?
______________________________________________________________________
______________________________________________________________________
5. Is corrosion physical change or chemical change? Why?
______________________________________________________________________
______________________________________________________________________

Answers to Review Questions

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1. As the engineer in-charge, non-ferrous metal should be used to design equipment that
is lightweight and less prone to corrosion since ferrous metal is relatively heavier and
more prone to corrosion.
2. Among the three types of ferrous metals, cast iron is the hardest because it contains the
highest amount of carbon- 1.7-4.5% (component that makes the metal hard).
3. Malleable cast iron is best suited for making accurate machine parts because of its good
machining qualities.
4. The production of metal causes environmental pollution due to its by-products and due
to its high- heat requirement.
5. Corrosion is a form of chemical change since metals undergo chemical processes
(reduction-oxidation) and irreversible change (rust cannot be transformed again into
metal).

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Assessment

Instruction: Using the table below, list down five (5) household objects with different uses
that are made of metals. Identify whether they are ferrous or non-ferrous. On the third
column, explain why it is advantageous to use metals instead of other material for that object.

OBJECT TYPE OF METAL ADVANTAGE
e.g. Cutleries (spoon & Ferrous (Stainless steel) It is not breakable like glass and it
fork) can be used multiple times unlike
plastics.
1.

2.

3.

4.

5.

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References

Anupoju, S. (2016). Cast Iron as a Building Material- Manufacturing, Types, Properties and
Applications. Retrieved from Cast Iron as a Building Material- Manufacturing, Types,
Properties and Applications
Earth.com. (2018). What is Aluminum? Retrieved from https://www.earth.com/earthpedia-
articles/aluminum/
Eddy Pump Corporation. (2020). Froth Pumps - Froth Flotation Pumping for Mining, Paper/Pulp,
and Wastewater. Retrieved from https://eddypump.com/education/froth-pumps-froth-
flotation-pumping/
Indian Metal Cast. (n.d.). Alloy Cast Iron Casting. Retrieved from
https://www.indiamart.com/proddetail/alloy-cast-iron-casting-10575680673.html
Kate, P. (2020). What are the Different Styles of Wrought Iron Design? Retrieved from
https://www.wisegeek.com/what-are-the-different-styles-of-wrought-iron-design.htm
Liaoning Borui Machinery Co., Ltd. (n.d.). Why is Grey Cast Iron So Popular? Properties and
Uses. Retrieved from http://www.metals-china.com/why-is-grey-cast-iron-so-popular-
properties-and-uses.html
Metal Supermarket. (2015). Difference Between Copper, Brass And Bronze. Retrieved from
https://www.metalsupermarkets.com/difference-between-copper-brass-bronze/
Mahmood, S. (2014). Engineering Materials. Retrieved from
https://www.academia.edu/5682956/Engineering_Materials
Seahath Canning Company. (n.d.). Tinplate Silver Food Tin Can OTS, Size: 425. Retrieved from
https://www.indiamart.com/proddetail/food-tin-can-ots-15963479091.html
Seefeldt, J. (2019). The Importance of Metallurgical Slags and Their Evaluation. Retrieved from
https://www.thermofisher.com/blog/materials/the-importance-of-metallurgical-slags-and-
their-evaluation/
Souza, C. (2014). Degradation and surface engineering. Retrieved from
https://cauesantos14.wordpress.com/2014/12/20/laboratory/
Wahab, A. (2020). Lead. Retrieved from https://science4fun.info/lead/
Wu, J. (n.d.). About Precious Metal Alloys. Retrieved from
https://joycewustudio.com/en/faqs/precious-metal-alloys/

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Zibo Fumin Chemical Equipment Co. Ltd. (n.d.). Agitator/Pressure Vessel, Made of Stainless
Steel. Retrieved from https://www.globalsources.com/si/AS/Zibo-
Fumin/6008845417115/pdtl/Agitator-Pressure-Vessel/1072375707.htm

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