Chapter 7 : Mechanical Properties of Metals

Question 1

What is failure?

Answer 1

the inability for a material to

1. perform intended tasks
2. meet performance criteria
3. perform safely and reliably

Question 2

Fracture is?

Answer 2

separation of a solid under stress into two or more parts

Question 3

The two types of fracture are?

Answer 3

Ductile and Brittle

Question 4

Describe ductile fracture.

Answer 4

occurs after extensive plastic deformation
characterized by a slow crack propagation
cup and one shape, dull and fibrous
breaks into big pieces

Question 5

List the steps in ductile fracture.

Answer 5

1. specimen forms a neck, and cavities form within the neck region
2. cavities coalesced into a crack in the center and propagate towards the surface perpendicular to the applied stress (microvoid)
3. microvoid growth into crack
4. close to the surface, crack changes angle to 45 degrees and forms a cup and cone shape

Question 6

Describe brittle fracture.

Answer 6

little plastic deformation
occurs along crystalline planes (cleavage planes)
rapid crack propagation (speed of sound)
occurs a lot in HCP because of the lack of slip planes
transgranular (cracks propagate across the matrix of the grains
granular, shiny surface with flat faucets
breaks into several small pieces

Question 7

List the steps in brittle fracture.

Answer 7

1. crack propagates perpendicular to applied stress
2. no plastic deformation - no warning!
3. breaking of atomic bonds, cleavage, transgranular fracture (along grains)

Question 8

Why would a material fail by a brittle fracture?

Answer 8

defects in the materials (corners, irregularities)

larger area = more defects

Question 9

What is a stress riser?

Answer 9

the defect location

Question 10

What is toughness?

Answer 10

the measure of the amount of energy a material can absorb before fracturing

Question 11

What is DBT?

Answer 11

ductile to brittle transformation
related to temperature (energy absorbance)
marked by a large drop off in impact energy required to fracture the meterial

Question 12

What can cause DBT

Answer 12

lower temperatures
high stress
fast loading rates
allowing agents (carbon increase = brittle increases)
grain size refinement (grain size decreases, DBTT decreases - smaller grains slow the crack movement)

Question 13

What is the relationship with carbon and DBT?

Answer 13

low carbon = lower temperature transition and a narrower range of temperatures
more carbon, more brittle, less energy absorbed

Question 14

What is more susceptible to DBT, FCC or BCC?

Answer 14

BCC

high strength alloys and FCC are not affected ( ~ 6 orders less to move a perpendicular than in BCC)

Question 15

Where is the stress concentration the highest?

Answer 15

at the tip of the crack

Question 16

What does a low Kic mean?

Answer 16

little plastic deformation, more brittle

Question 17

What is fatigue?

Answer 17

failure due to repetitive or cyclic stresses

Question 18

Describe fatigue failures.

Answer 18

the more fatigue on a material, the less stress it takes to fracture

Question 19

What are basic structural changes that occur in a ductile metal in the fatigue process?

Answer 19

1. crack initiation - early development of fatigue damage
2. slip band crack growth (called stage 2)
3. crack growth on planes of high tensile stress (stage 3)
4. ultimate ductile failure

Question 20

Extrusions and Intrusions are formed by?

Answer 20

rotation back and forth (fatigue)

Question 21

What are 4 major factors that affect the fatigue strength of a metal?

Answer 21

1. stress concentration - formed from notches, holes edges etc.
2. surface roughness - rougher surface finish = more fatigue
3. surface condition - most fatigue failures start at surface (carburization increases fatigue life)
4. environment - corrosion etc

Question 22

What is the relationship between crack length, fatigue, stress, and propagation?

Answer 22

1. when crack length is small, fatigue crack growth rate is small
2. increase of cyclic stress increases crack growth rate

Question 23

What is creep?

Answer 23

a constant stress that produces a constant progressive plastic deformation over a period of time

Question 24

What increases creep rate?

Answer 24

higher stresses

higher temperatures

Question 25

What are the characteristics of the surface of a ductile fracture of a metal?

Answer 25

dull and fibrous surface with a cup and cone shape

Question 26

what are the characteristics of the surface of a brittle fracture of a metal?

Answer 26

granular, shiny appearance that contain flat faucets that are created during cleavage

Question 27

How does the carbon content of a plain-carbon steel affect the ductile-brittle transition temp range?

Answer 27

increase of carbon content = temperature and the range width also increase

Question 28

What is fatigue test SN curve, and how are the data for the SN curve obtained?

Answer 28

plot of fatigue stress versus corresponding cycles including fracture. Data for stress is from repeated fluctuating bending, axial forces, torsional forces, or combined stresses. the cycles are counted and plotted on a logarithmic scale

Question 29

What is metal creep?

Answer 29

a time dependent strain that produces progressive plastic deformation

Question 30

What is the relationship between ideal and real materials strength?

Answer 30

engineering materials (real) << perfect (ideal) materials
experimental strength anywhere from 10-100 times less

Question 31

What are the basic steps in fracture?

Answer 31

1. crack formation

2. crack propagation (mode of fracture is highly dependent on method of crack propagation)

Question 32

What is the relationship between temperature and DBT with BCC

Answer 32

low temp = larger shear force needed to fracture

higher temp = easier to move (more energy involved) and is more ductile

Question 33

What is the relationship between magnitude of amplification to distance from crack tip?

Answer 33

magnitude of stress amplification is inversely proportionate to the distance from the crack tip.

Question 34

What is the difference in theoretical and experimental strengths?

Answer 34

theoretical - strength you need to pull apart bonds

experimental strength - much lower than theoretical, practical strength, includes impurities

Question 35

What is Kic?

Answer 35

when a crack will propagate

Question 36

What materials are immune to fatigue?

Answer 36

BCC (but ONLY after a certain period of time)

FCC applied stress will continually decrease with the number of cycles

Question 37

The _____ 2a gets, the sharper the _____ becomes.

Answer 37

the BIGGER 2a gets, the sharper the POINT becomes

Question 38

Where does fracture begin?

Answer 38

where stress concentration is highest

Question 39

If there is a high fracture toughness, does the crack move?

Answer 39

No, high fracture toughness –> cracks not moving

Question 40

What does Ki and Kic stand for

Answer 40

Ki = stress intensity factor
Kic = fracture toughness

Question 41

how do you calculate creep rate?

Answer 41

∆strain / ∆t

Question 42

Is ductile fracture more desirable than brittle fracture?

Answer 42

Yes

Question 43

Do BCC materials exhibit an endurance limit in fatigue while FCC materials do not?

Answer 43

Yes, BCC has an endurance limit,

FCC does not

Question 44

What is one sign of ductile fracture?

Answer 44

A lot of microscopic plastic deformation

Question 45

Is toughness usually higher in slow loading or impact loading?

Answer 45

Higher in slow loading

Question 46

What does a tensile stress graph look like?

Answer 46

a straight steady positive slop than an inverted semi circle

Question 47

Creep rate for a given material will increase or decrease if the temperature is increased?

Answer 47

creep rate will increase if the temperature is increased

Question 48

What does a creep test graph look like?

Answer 48

similar to an x^3 function

Question 49

Do BCC materials exhibit DBTT?

DO FCC materials exhibit DBTT?

Answer 49

BCC yes

FCC no

Question 50

axis of impact graph?

Answer 50

energy absorbed vs temperature

Question 51

axis of fatigue failure graph?

Answer 51

stress vs number of cycles (log10)

Question 52

axis of creep curve graph?

Answer 52

strain vs time