Metals

Question 1

Metals can be classified into two main groups. What are they?

Answer 1

• Ferrous metals
• Non-ferrous metals

Question 2

What are ferrous metals?

Answer 2

A ferrous metal contains iron (ferrite) and carbon.

Question 3

What is a non-ferrous metal?

Answer 3

A non-ferrous metal does not contain iron.

Question 4

What is a ferrous alloy?

Answer 4

Ferrous alloys are a mixture of two or metals - at least one of which contains iron and carbon.

Question 5

What is a non-ferrous alloy?

Answer 5

A non-ferrous alloy is a mixture of two or more metals - none of which contain iron.

Question 6

Name four ferrous metals.

Answer 6

• Cast Iron
• Mild Steel
• Medium Carbon Steel
• High carbon steel

Question 7

Name at least five non-ferrous metals.

Answer 7

• Aluminium
• Copper
• Lead
• Tin
• Zinc
• Titanium
• Platinum
• Gold
• Silver

Question 8

Name three ferrous alloys.

Answer 8

• Stainless steel
• High speed steel
• Die (tool) steel

Question 9

Name three non-ferrous alloys.

Answer 9

• Brass
• Bronze
• Duralumin

Question 10

Gold is the only metal found in a useable form. All other metals are extracted from ores. Which ores contain the following metals - iron, copper, aluminium, lead, tin, zinc?

Answer 10

• Iron is found in magnetite and haematite
• Copper is found in chalcopyrite
• Aluminium is found in bauxite
• Lead is found in galena
• Tin is found in cassiterite
• Zinc is found in zinc blende

Question 11

What is added to iron to strengthen it? What is this material called?

Answer 11

• Iron is combined with carbon to produce steel.
• The amount of carbon determines the strength and hardness of the steel.

Question 12

What are the two most common metal ores?

Answer 12

• Aluminium is the earth’s most common ore (bauxite).
• Iron is the second most abundant metal ore.

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Question 13

The structure of all metals are made from what?

Answer 13

Crystals

Each crystal has a boundary that is firmly bonded to the boundary of a neighbouring crystal.

Question 14

How is iron converted from either haematite or magnetite ore?

Answer 14

• The ore is heated in a blast furnace.
• The impurities (slag) are removed from the surface.
• The material produced is called “pig iron”.
• Pig iron is then converted into steel by adding carbon in a basic oxygen furnace.

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Question 15

What effects are produced by increasing the carbon content in irons and steels?

(see the “Properties of materials” deck for key word definitions)

Answer 15

• The material becomes harder
• Toughness is reduced and the material becomes more brittle. Cast Iron can be brittle under impact.
• Medium and High Carbon steels can be heat treated to make them stronger and harder. The material can then be used for cutting tools (mild steel has insufficient carbon to be heat treated).

Question 16

What is the carbon content % of Mild Steel?

Answer 16

Less than 0.3%

Question 17

What is the carbon content % of Medium Carbon Steel?

Answer 17

0.3 to 0.6%

Question 18

What is the carbon content % of High Carbon Steel?

Answer 18

0.6 to 1.7%

Question 19

What is the carbon content % of cast iron?

Answer 19

3.5%

Question 20

Name at least three uses for mild steel.

Answer 20

• Nuts
• Bolts
• Washers
• Car body panels
• Panels for fridge freezers and other white goods

Question 21

Name two uses for medium carbon steel.

Answer 21

• Springs
• General gardening tools

Question 22

Name at least three uses for high carbon steel.

Answer 22

• Hand tools
• Scribers
• Dot Punches
• Chisels
• Plane blades

Question 23

Name at least three uses for cast iron.

Answer 23

• Castings
• Manhole covers
• Engine blocks
• Machine parts
• Brake Discs
• Vice jaws

Question 24

Although aluminium ore (bauxite) is the most abundant ore in the Earth’s crust, it is not the most processed metal - steel is. Why?

Answer 24

Aluminium is difficult to process, required large amounts of energy. It is therefore more expensive to produce.

Question 25

Name three common uses for aluminium.

Answer 25

• Saucepans
• Overhead power cabels
• Engine blocks
• Brake calipers
• Car Body panels
• Aircraft parts

Question 26

Name three common uses for copper.

Answer 26

• Electric contacts
• domestic water pipe work
• electrical cable
• jewellery

Question 27

Name three common uses for gold.

Answer 27

• Jewellery
• Electronic components
• Switch and cable contacts
• SIM cards

Question 28

Name a common use for lead.

Answer 28

• Flashing on roofs - where the tiles meet the brickwork

Question 29

Name two common uses for platinum.

Answer 29

• Expensive jewellery
• Thermocouple cables

Question 30

Name two common uses for silver.

Answer 30

• Expensive cutlery
• Jewellery
• Solder
• Ornaments

Question 31

Name two common uses for tin.

Answer 31

• Coating for steel food cans
• food wrapping (foil)

Question 32

Name two common uses for titanium.

Answer 32

• Hip replacements
• spectacle frames
• aerospace parts due to it’s high strength to weight ratio

Question 33

Name at least three common uses for zinc.

Answer 33

• A coating for steel (galvanising and zinc plating)
• buckets
• electrical unit casings
• lock mechanisms
• high detail die castings

Question 34

List at least four benefits of alloying metals.

Answer 34

• changes the melting point
• changes the colour
• increases strength, hardness and ductility
• enhances resistance to corrosion and oxidation
• changes electrical/thermal properties
• improves flow properties, producing better castings

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Question 35

What is oxidation?

Answer 35

Oxidation is an oxide layer that forms on a metal surface when in contact with oxygen. In most metals this protects the surface from further oxidation but in steels, it is porous and results in further oxidation and corrosion.

Question 36

What metals are alloyed to produce duralumin and what is it commonly used for?

Answer 36

• Duralumin is an alloy of aluminium and 4% copper, 1% manganese and 0.1% magnesium.
• It is used for structural components on aircraft.

Question 37

What metals are alloyed to produce brass and what is it commonly used for?

Answer 37

• Brass is an alloy of copper and 35% zinc.
• It is used for cast valves, taps, boat fittings and ornaments.

Question 38

What metals are alloyed to produce bronze and what is it commonly used for?

Answer 38

• Bronze is an alloy of copper and 10% tin.
• It is used for statues, coins and bearings.

Question 39

What metals are alloyed to produce nitinol and what is it commonly used for?

Answer 39

• Nitinol is made from nickel and titanium
• It is a smart metal alloy used in springs and muscle wires

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Question 40

Which metals can be alloyed with steel to produce High Speed Steels (HSS)?

Answer 40

• Tungsten
• Chromium
• Vanadium
• Cobalt

Question 41

What are the properties of high speed steels and what are they used for?

Answer 41

• HSSs are very hard and will cut at very high temperatures
• Therefore they are used for cutting tools such as drills

Question 42

What are the properties of high tensile steels and what are they used for?

Answer 42

• High tensile steels have a good tensile strength and toughness and are generally corrosion resistant.
• They are used for car engine components.

Question 43

Which metal is alloyed with steel to produce high tensile steel?

Answer 43

• Nickel

Question 44

Which three metals are alloyed with steel to produce stainless steel?

Answer 44

• Chromium
• Nickel
• Magnesium

Question 45

What are the properties and uses of stainless steel?

Answer 45

• Stainless steel is tough, durable and corrosion resistant
• It is used for sinks, cutlery and sanitary ware.

Question 46

Which two metals are alloyed with steel to produce tool and die steel?

Answer 46

• Chromium
• Manganese

Question 47

What are the properties of tool and die steels and what are they used for?

Answer 47

• Tool and die steels are very hard and tough with excellent wear resistance.
• They are used for fine press tools, extruder dies, blanking punches and dies, some hand tools.

Question 48

Explain the term work hardening.

Answer 48

Work hardening occurs when metals are “cold worked” such as bending, rolling or hammering. The crystal structure of the metal is distorted causing internal stresses that make the metal harder.

Question 49

How do you return work hardened metal to a “soft” state?

Answer 49

The metal must be annealed.

For information on annealing click here

Question 50

What is planishing?

Answer 50

Planishing is the term given to a beaten decorative finish in a metal such as copper or silver. The hammering work hardens the material.

Question 51

List at least four heat treatment processes.

Answer 51

• Annealing
• Hardening
• Tempering
• Normalising
• Quenching
• Case Hardening
• Carburising
• Nitriding
• Flame hardening
• Induction hardening

Question 52

What is the definition of heat treatment?

Answer 52

Heat treatments are processes to heat and cool metals in a controlled way to achieve a beneficial change in the properties of the materials.

Question 53

What is annealing?

Answer 53

Annealing is a metal heat treatment process that reverses the internal stresses caused by work hardening. By heating the metal, the crystals grow making the material softer and more ductile. The temperature must be maintained for a sufficient period of time to allow the material to “soak”. The material is then cooled slowly allowing the crystals to keep their new shape.

Glass can also be annealed.

For more information click here

Question 54

When working with steel, what is hardening and how is it achieved?

Answer 54

Hardening is a heat treatment that changes the way the carbon within the steel affects the strength and hardness of the material. The carbon in the structure moves out of its normal position and when the material is quenched, the carbon does not have time to return to its original place. This causes the material to be strengthened and hardened.

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Question 55

What is tempering and why is it an important process to carry out after hardening medium and high carbon steels?

Answer 55

Tempering is carried out after hardening to remove any brittleness in the hardened steel. First the hardened steel is cleaned to a shiny grey colour and then heat is applied to the correct tempering colour. The material is then rapidly cooled (quenched). Without tempering the steel could well fail by cracking or shattering.

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Question 56

How can you tell the what the tempering temperature is and what happens to the steel as the temperature rises?

Answer 56

The tempering temperature is determined by the colour of the steel. At 230ºC the steel is a pale straw colour. At 300ºC it is blue. This is known as the tempering colour. As the temperature rises the steel’s hardness is reduced but the toughness is increased.

Click hereto view a tempering colour chart.

Question 57

What is quenching?

Answer 57

Quenching is the rapid cooling of heat treated metals. Sometimes the quenching media (brine, water, oil or air) is agitated to prevent rapid localised cooling that might result in cracks.

Question 58

What is normalising and how is it achieved?

Answer 58

Normalising is a heat treatment process where the crystal structure is allowed to become a uniform size. The metal is heated to a specific temperature where the crystal structure begins to change. The temperature is maintained (soaked) until all the crystals have been normalised. After cooling in air, the metal is tougher and more ductile.

Question 59

What type of steels can be case hardened?

Answer 59

Low carbon steels such as mild steel are suitable for case hardening.

Question 60

What is case hardening and what types of product benefit from the process?

Answer 60

• Case hardening is the hardening of the surface/outer skin of a low carbon steel.
• Cams and gears benefit from case hardening as it is only the surface that needs to be hard, leaving the remainder of the component in a less brittle state.

For more information click here

Question 61

List four different ways of case hardening mild steel.

Answer 61

• Carburising
• Nitriding
• Flame hardening
• Induction hardening

Question 62

Explain the case hardening process of carburising.

Answer 62

In carburising the steel is placed in a ceramic box packed with carbon rich material and then heated to produce a carbon layer. Then the steel is heated to around 760ºC and then quenched to produce a hard case.

Question 63

List two advantages of case hardening mild steel.

Answer 63

• Steels that have too little carbon for heat treatment can be given a hardened surface.
• The process leaves a tough inner core, making it suitable for camshafts, gears, steering components, all of which take a lot of wear.

Question 64

Name one disadvantage of case hardening.

Answer 64

In most cases grain-growth occurs which increases the size of the steel. A machining process is then required to return the steel to its required size.

Question 65

Nitriding is another case hardening process. Explain how its done.

Answer 65

In nitriding, steel is immersed in nitrogen whilst being heated to 500ºC. No additional hardening is necessary.

Question 66

List at least three advantages of nitriding.

Answer 66

• No additional hardening is necessary.
• It removes the chance of surface cracks.
• It increases resistance to corrosion.
• It is a clean process.
• It is economical for large numbers.

Question 67

Name two disadvantages of nitriding.

Answer 67

• Initial set up costs are high.
• If overheated there is a permanent loss of hardness.

Question 68

Name two advantages of case hardening by flame hardening or induction hardening.

Answer 68

• A localised area of the product can be hardened leaving other area unaffected where toughness is required.
• Grain growth does not occur so no additional machining is required.