Fracture

Question 1

Contrast a ductile fracture and a brittle fracture

Answer 1

A ductile fracture has:

• > significant plastic deformation in the vicinity of the crack
• > slow crack propagation
• > cracks often require more greater force to propagate
• > one to two pieces

A brittle fracture has:

• > little to no plastic deformation
• > cracks which are unstable
• > rapid crack propagation
• > many pieces (consider PVC vs lead)

Question 2

Name the steps in the moderately ductile fracture process:

Answer 2

necking -> void nucleation -> void growth -> crack propagation -> fracture

Question 3

What happens in necking

Answer 3

Necking is the forming of geometrical instability at point M in the stress strain curve (TS)
Due to tensile strength force equation, as the area decreases, the stress on the area increases

Question 4

What happens at void nucleation

Answer 4

Continued by stress, a lot of dislocations will pile up

The sliding motion of dislocations will create vacancies, which eventually cluster to become noticeable voids

Question 5

For a sharp crack, compare and contrast why sharp cracks have higher stress than not as sharp cracks. Also what do flaws act as

Answer 5

Sharp cracks often have a smaller curvature, leading to greater stress with greatest stress at the crack tip. Flaws act as stress concentrators. Ductile materials often have plastic deformation which redistributes some of the stress at a crack

Question 6

Critical stress needs ___ to propogate

Answer 6

surface energy, and elastic energy (released when crack propagates)

Question 7

Crack propagates when

Answer 7

Applied stress exceeds critical stress (identify the equation on the equation doc)

Question 8

What is the fracture toughness

Answer 8

The critical stress or stress at which a material will fracture

Question 9

What is mode 1 of crack propagation dependent on

Answer 9

Temperature, Strain rate, and microstructure

Question 10

Fatigue is classified as

Answer 10

failure that occurs under applied cyclic (dynamic) stress below Ts or fracture stress over many cycles

Question 11

Fatigue strength is the

Answer 11

Strength/stress amplitude at which given a number of cycles a metal will fracture

Question 12

Fatigue life is the

Answer 12

number of cycles at a given stress amplitude which will cause a metal to fracture

Question 13

Fatigue limit is the

Answer 13

supposedly the stress amplitude (Sfat) in which even with an infinite number of stress cycles, the material will not fracture

Question 14

What is the idea of creep

Answer 14

method of how to get plastic deformation without the force to drive slip
Molecules move around in “dislocation climb” motion

Question 15

What are other ways to improve fatigue life

Answer 15

• > have compressive imposed surface stress to prevent crack growth
• > remove stress concentrators the best you can