Chapter 4

Question 1

Define Stiff

Answer 1

Small strain for a large stress.

Higher stiffness = higher YM

Question 2

Define Hard

Answer 2

Resists indentation on impact

Question 3

Define Elastic

Answer 3

Returns to outstretched form when stresses are removed

Question 4

Define Plastic

Answer 4

Undergoes permanent deformation under a large stress rather than cracking

Question 5

Define Strength

Answer 5

A measure of how much a material can resit being deformed by a force without breaking
Strong material requires a large stress is needed to break it or deform it

Question 6

Define Brittle

Answer 6

Breaks suddenly as cracks travel through it; little or no plastic deformation

Question 7

Define Toughness

Answer 7

Toughness is a measure of the energy a material can absorb before it breaks
A tough material undergoes considerable plastic deformation before breaking

Question 8

Describe ceramics in three words

Answer 8

Hard, Brittle, Stiff

Question 9

Describe the different types of metals

Answer 9

Pure metals = soft
Metals that can be easily shaped = malleable
Those that can be drawn into wires = ductile
Alloys = usually harder

Question 10

Describe the different types of polymers

Answer 10

Glass polymers - similar properties to glass, brittle

Semi-crystalline polymers - Tough

Question 11

Give the equation for Hooke’s Law

Answer 11

Force F (N) = spring constant k (N/m) * extension x (m)
F=kx

Question 12

Describe the relationship between F and x in Hooke’s law

Answer 12

They are proportional

k = constant of proportionality

Question 13

A large spring constant (k) means that…

Answer 13

Difficult to stretch

Question 14

What affects the value of k?

Answer 14

Material, length, cross-sectional area (of the wire)

Question 15

Spring constant is a value for a specimen not a material!!

Answer 15

Spring constant is a value for a specimen not a material!!

Question 16

Hooke’s law can be applied to both extension and [ ]

Answer 16

Compression

Question 17

Describe a wire deforming elastically

Answer 17

Will return to its original length when the load is removed

Question 18

What happens when a wire exceeds the elastic limit?

Answer 18

The wire deforms plastically. It will not return to its original length once the load is removed

Question 19

Describe a extension (x) by force (y) graph

Answer 19

It’s linear for nearly all of the elastic region, curving very slightly near the elastic limit. The plastic region of the graph is non-linear. The wire fractures at the fracture point.

Question 20

What is the fracture stress?

Answer 20

The stress at which a material breaks.

Question 21

What is the yield stress?

Answer 21

This is the stress at which a material begins to deform plastically and becomes permanently deformed. Is the stress at which a large amount of plastic deformation takes place with constant or reduced load

Question 22

Equation for stress:

Answer 22

Stress σ (Nm⁻²) = force F (N) / cross-sectional area A (m²)

Question 23

What is strain?

Answer 23

The fractional increase in length

Question 24

Equation for strain:

Answer 24

Strain ε = extension x / original length L

Question 25

Why do tough materials have rounded edges, unlike the sharp, jagged edges like brittle materials when fracturing?

Answer 25

Tough materials undergo considerable plastic deformation before fracture

Question 26

What does it mean to ‘neck’?

Answer 26

This means that part of it becomes narrower than the rest

Question 27

What does Young’s modulus give a measure of?

Answer 27

The stiffness of a material rather than a particular specimen

Question 28

Equation for Young’s modulus:

Answer 28

E = stress/strain

Question 29

Unit for Y. Modulus:

Answer 29

Nm⁻² / Pa

Question 30

When is a material in tension?

Answer 30

When a force is acting in a direction to stretch the material. The force = tensile force

Question 31

What force compresses materials?

Answer 31

Compressive force

Question 32

What do material selection charts allow?

Answer 32

Quick comparisons between different classes of materials

Question 33

Describe tension

Answer 33

Stretching materials creates tension
Forces of tension act along the same line as the forces stretching the material but in the opposite direction at each end of the material

Question 34

Describe forces in springs in relation to Hooke’s Law

Answer 34

The extension of a spring is proportional to the force applied. If the force is compressive the spring is squashed and the extension is negative

Question 35

Hookes’ law stops working when the…

Answer 35

load is great enough

Question 36

A material will show elastic deformation up to its [ ], and [ ] beyond it

Answer 36

Elastic limit

Plastic deformation

Question 37

Describe a material stretching elastically in relation to the atoms

Answer 37

1) When the material is put under tension, the atoms of the material are pulled apart from one another
2) Atoms can move slightly relative to their equilibrium positions, without changing position in the material
3) Once the load is removed, the atoms return to their equilibrium distance apart

Question 38

Describe a material stretching plastically in relation to the atoms

Answer 38

1) Some atoms in the material move position relative to one another
2) When the load is removed, the atoms don’t return to their original positions (equilibrium)

Question 39

What is elastic strain energy?

Answer 39

The energy stored in a stretched material

Question 40

When a material is stretched or compressed, [ ] in deforming the material

Answer 40

work is done

Question 41

On a force against extension graph, what represents the work done?

Answer 41

The area under the graph

Question 42

A stress causes a [ ]

Answer 42

Strain

Question 43

If the forces stretch the material, they’re [ ]

Answer 43

Tensile

Question 44

If the forces squash the material, they are [ ]

Answer 44

Compressive

Question 45

A stress big enough to break a material is called the [ ]

Answer 45

Fracture stress

Question 46

Describe stress in relation to atoms

Answer 46

1) The effect of stress is to start to pull the atoms apart from one another
2) Eventually the stress becomes so great that the atoms separate completely, and the material fractures
3) Ultimate tensile stress - max stress that the material can withstand before breaking

Question 47

When a material is stretched or compressed, [ ] in deforming the material

Answer 47

work is done

Question 48

Work done on an elastic material in stretching is equal to the [ ] in the material as [ ]

Answer 48

Energy stored

Elastic strain energy

Question 49

Work done =

Answer 49

1/2Fx

Question 50

Elastic strain energy =

Answer 50

E = 1/2Fx

= 1/2kx²

Question 51

Stress and strain are proportional to each other until the [ ]

Answer 51

Limit of proportionality

Question 52

Describe what the gradient and area of a stress (y) and strain (x) graph mean

Answer 52

Gradient = Young's Modulus
Area = Elastic strain energy per unit volume

Question 53

Define Ductile

Answer 53

You can change the shape of ductile materials by drawing them out into wires/other shapes. They keep their strength while they are deformed like this