Chapter 3 - Defects Flashcards
Types of defect
- 0D, Point defects
- 1D, Linear defects
- 2D, Planar defects
- 3D, Volume defects
0D, Point defects
- atoms are either missing or in irregular places in the lattice
- E.G. Lattice vacancies, substitutional & interstitial impurities
1D, Linear defects
- groups of atoms in irregular positions
- E.G. Screw and Edge dislocations
2D, Planar defects
- the interfaces between homogeneous regions
- E.G. Grain boundaries, stacking faults & external surfaces
3D, Volume defects
- these are extended defects
- E.G. Pores or Cracks
What are impurities?
Atoms which are different from the host. Can be intentional or unintentional
What are defects?
An effect used to create desired material properties without changing the composition
What factors do Substitutional solid solutions depend on?
depends on factors for high solubility:
- Atomic size factor
- Crystal structures of the solute and solvent must be the same
- Electronegavtivities of the solute and solvent should be comparable
What are the characteristics of Interstitial Solid Solutions?
radius of the solute should be a lot less than solvent radius due to the fact that for FCC, BCC, HCP the voids between the host atoms are quite small
What are Dislocations?
- Linear defects, i.e. defects which produce distortion in the lattice
- E.G. Edge or Screw (Taylor or Burger) Dislocations
What are Dislocation Cores?
The area around the line where distortion in the lattice occurs
What are Grain boundaries?
The atomic mismatch in the regions where the grains meet
