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Materials Structure > Chapter 7 Dislocation and Strengthening Mechanism > Flashcards

Chapter 7 Dislocation and Strengthening Mechanism Flashcards

1
Q

What are the different strengthening mechanisms?

A
  • Grain size-reduction
  • Solid solution alloying
  • Precipitation hardening
  • Cold working
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2
Q

Describe Slip System

A
  • combination of the slip direction and slip plane of material
  • dislocation is most probable to occur due to the high planar and linear density of atoms which promotes more movement
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3
Q

Why are HCP brittle? and FCC ductile?

A

Even both of the structure is close packed, FCC has more slip system than HCP this rendering easier slip motion thus imparting the ductile property in contrast to HCP that has significantly fewer slip system

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4
Q

Briefly define deformation

A

Plastic shear or slip where one plane of atoms slides over adjacent plane by defect motion (dislocations).

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5
Q

What is Slip Direction?

A

Slip direction - direction of movement - Highest linear densities

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6
Q

What is Slip Plane

A

Slip plane - plane allowing easiest slippage

Wide interplanar spacings - highest planar densities

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7
Q

Give the Slip Plane and Direction for FCC

A

Slip Plane, Slip Direction Number of Slip System

{111}, <1 1̅ 0>, 12

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8
Q

Give the Slip Plane and Direction for BCC

A

Slip Plane, Slipe Direction Number of Slip System

{110}, , 12
{211}, , 12
{321}, , 24

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9
Q

Give the Slip Plane and Direction for HCP

A

Slip Plane, Slipe Direction Number of Slip System

{0001}, <11 2̅ 0>, 3
{10 1̅ 0}, <11 2̅ 0>, 3
{10 1̅ 1}, <11 2̅ 0>, 6

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10
Q

How does grain size-reduction strengthen the material?

A
  • grain boundaries are barriers/obstacles to dislocation/slip
  • smaller grain = more grain boundary = more obstacle
  • more obstacle impede dislocation/slip movement = strengthen the material.

Relationship is presented by Hall-Petch Everything

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11
Q

How does solid solution alloying strengthen the material?

A
  • impurity atoms distort the lattice generate stress.
  • stress can produce a barrier to dislocation motion.
  • small impurities = compressive stress
  • large impurities = tensile stress
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12
Q

How does cold working strengthen the material

A
  • introduces dislocations

* dislocation impedes dislocation movements.

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13
Q

How does precipitation hardening strengthen the material?

A

Hard precipitates are difficult to shear

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Materials Structure (8 decks)

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