Objective 01: Metallurgy and Metal Structure

Question 1

Metallurgy

Answer 1

The study of metals

Question 2

3 Groups of Metallurgy

Answer 2

1. Extractive
2. Mechanical
3. Physical

Question 3

Extractive Metallurgy

Answer 3

The study of the extraction and purification of metals from their ores through several steps that increasingly purify the metal by removing unwanted metals

Question 4

What are 3 routes that Extractive Metallurgy may be carried out?

Answer 4

1. Pyrometallurgy
2. Hydrometallurgy
3. Electrometallurgy

Question 5

Pyrometallurgy

Answer 5

Melting the ore in a furnace to release the metal

Question 6

Hydrometallurgy

Answer 6

Dissolving the metal from the ore and recovering it as a powder

Question 7

Electrometallurgy

Answer 7

Dissolving the metal from the ore with the use of electricity

Question 8

Mechanical Metallurgy

Answer 8

The study of the techniques and mechanical forces that shape and make the finished forms of metal, including the effects of stress, time, and temperature

Question 9

Physical Metallurgy

Answer 9

The study of the structure of metals

Question 10

What are the properties of metals initmately related to?

Answer 10

Their structures

Question 11

How can the properties of a metal be manipulated?

Answer 11

Modification of the structure, e.g. modifying chemical composition, alloys, and heat treatment

Question 12

Describe Metals

Answer 12

1. Good conductors of heat and electricity
2. Generally malleable and ductile
3. Occur naturally in ores in the form of chemical compounds, e.g. sulphides and oxides
4. Tend to corrode, i.e. tend to react chemically with the environment and revert to compound forms, with the exception of noble metals

Question 13

Are the majority of power plant components iron-based?

Answer 13

Yes

Question 14

What occurs on the atomic level when a solid metal is heated?

Answer 14

1. The atoms of the material increasingly vibrate as the temperature increases
2. At a certain temperature, the substance melts and the cohesive bonds holding the individual atoms together breaks, allowing them to travel freely throughout the liquid
3. At the melting point, heat energy is absorbed without further increase in temperature until all the metal is in liquid state

Question 15

Does every metal and alloy have a fixed melting point?

Answer 15

Yes

Question 16

Unit Cells

Answer 16

Fixed configuration of individual metallic atoms

Question 17

What are the 3 basic structures of Unit Cells?

Answer 17

1. Face-Centered Cubic (FCC)
2. Body-Centered Cubic (BCC)
3. Close Packed Hexagonal (CPH)

Question 18

How many atoms make up the Face-Centered Cubic structure?

Answer 18

14

Question 19

What are the properties of Face-Centered Cubic?

Answer 19

1. High Ductility
2. Low Shear Strength
3. Low Tensile Strength
4. Good Thermal and Electrical Conductivity

Question 20

What are some metals that have the FCC structure in solid state?

Answer 20

1. Gold
2. Aluminum
3. Silver
4. Lead
5. Nickel
6. Gamma Iron (910-1390ºC)

Question 21

How many atoms make up the BCC structure?

Answer 21

9

Question 22

What are the properties of BCC?

Answer 22

1. High Strength
2. Low Ductility
3. Very Resistant to Shear Deformities

Question 23

What are some metals that have the BCC structure in solid state?

Answer 23

1. Chromium
2. Tungsten
3. Molybdenum
4. Vanadium
5. Alpha Iron (below 910ºC)
6. Delta Iron (above 1390ºC)

Question 24

How many atoms make up the CPH structure?

Answer 24

17

Question 25

What are the properties of CPH?

Answer 25

1. Intermediate Strength
2. Intermediate Ductility

Question 26

What are some metals that have the CPH structure in solid state?

Answer 26

1. Zinc
2. Magnesium
3. Cadmium
4. Titanium

Question 27

What happens to unit cells as molten metal cools and solidifies?

Answer 27

They become packed together to form 3D crystals that occupy a space lattice

Question 28

What happens as unit cells continue to pack together as crystals?

Answer 28

Further growth of these crystals forms dendrites, which look like the branches of an evergreen tree, that extend through the molten matric until they contact neighbouring dendrites. These contact surfaces become the crystal or grain boundaries.

Question 29

What happens to insoluble solids present in solidifying molten metal?

Answer 29

They are pushed ahead of the growing crystals and become trapped at the grain boundaries and between the limbs of the dendrites.

Question 30

What effect does grain size have on the properties of metals?

Answer 30

1. Smaller grain size increases tensile strength and ductility
2. Larger grain size tends to resist creep and deformation under constant loading but may be prone to cracking

Question 31

What primarily determines the shear strength of metals?

Answer 31

The type of unit cell structure exhibited

Question 32

Polymorphism

Answer 32

The ability of a metal to change to a different unit cell structure depending on its temperature

Question 33

Do most metals and alloys exhibit polymorphism?

Answer 33

Yes

Question 34

Allotropy of Iron

Answer 34

The ability of iron to exist in different physical forms in the same substance

Question 35

Why is allotropy consequential?

Answer 35

1. It affects melting point, hardness, metal solubility, and alloying chemistry
2. Very important in determining the way iron reacts with carbon to form steel and cast iron

Question 36

What Unit Cell structure is this:

Answer 36

FCC

Question 37

What Unit Cell Structure is this:

Answer 37

BCC

Question 38

What Unit Cell Structure is this:

Answer 38

CPH