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L05B: Line defects (dislocations)

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Two basic types edge and screw, plus a mixture of these. ... L-5: Thermodynamics of Mixtures (Chapter 7) Author: WR Wilcox & LL Regel Last modified by: – PowerPoint PPT presentation

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Title: L05B: Line defects (dislocations)


1
L05B Line defects (dislocations)
  • Two basic types edge and screw, plus a mixture
    of these.
  • The edge dislocation can be imagined as being
    formed by an extra half-plane of atoms inserted
    into the structure (or removal of half a plane)
  • Note distortion of lattice caused by its
    presence.
  • Characterized by its direction and Burgers
    vector, which is found by making a circuit around
    the core.
  • The Burgers vector and direction are
    perpendicular for edge dislocations.
  • Shear stress parallel to the Burgers vector
    causes the dislocation to move.? VMSE

Last revised September 25, 2013 by W.R. Wilcox,
Clarkson University
2
Screw dislocations
  • Can imagine as being formed by cutting half way
    through the crystal along a plane, and then
    shifting one part relative to the other in the
    direction of the cut.
  • Again, the lattice is distorted near the
    dislocation core.
  • Now the Burgers vector isparallel to the
    dislocation.
  • Again, shear stress parallel tothe Burgers
    vector causesthe dislocation to move through
    the crystal.? VMSE

3
Edge, Screw, and Mixed Dislocations
? VMSE
Notice that the Burgers vector does not change
along the dislocation
4
Dislocations in non-metals
  • Much more complex because of covalent and ionic
    bonding.
  • If the unit cell is large, then the Burgers
    vector is also large.
  • Often carry an electric charge, which can depend
    on impurity doping.
  • Example of one model for a lt110gt edge dislocation
    in silicon

http//www.ornl.gov/info/ornlreview/v30n3-4/edge.h
tm
5
Observation of dislocations
  • Many methods have been used to observe
    dislocations, either directly or indirectly.
  • Most rely on observation of the strain
    fieldaround the dislocation core.
  • For example, transmission electron microscopy
  • X-ray topography (using Brookhaven synchrotron
    light source Clarkson grad student observed
    dislocation motion in GaAs.)
  • Transmission optical microscopy using crossed
    polarizers for ceramic crystals.
  • Decoration of dislocations by impurities.
  • Etch pits where dislocations emerge on surface.
  • Growth spirals where screw dislocations emerge on
    surfaces.

(0001) face of carborundum (SiC)
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