Slip (materials science)

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Schematic view on slip mechanism
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Schematic view on slip mechanism

Slip is the process by which plastic deformation is produced by a dislocation motion. By an external force, parts of the crystal lattice glide along each other, resulting in a changed geometry of the material. Depending on the type of lattice, different slip systems are present in the material. More specifically, slip occurs between planes containing the smallest burgers vector. The picture on the right shows a schematic view on the slip mechanism.

Contents

[edit] Slip Systems

[edit] FCC

Lattice configuration of the close packed slip plane in an FCC material. The arrow represents the burgers vector in this dislocation glide system.
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Lattice configuration of the close packed slip plane in an FCC material. The arrow represents the burgers vector in this dislocation glide system.

Slip in FCC crystals occurs along the close packed plane. Specifically, the slip plane is of type {111}, and the direction is of type <110>. In the diagram, the specific plane and direction are (111) and [-110], respectively. Given the permuations of the slip plane types and direction types, FCC crystals have 12 slip systems. In the FCC lattice, the burgers vector, b, can be calculated using the following equation:[1]

|b|= \frac {a}{2}= \frac{a}{\sqrt 2}[1]

Where a is the lattice constant of the unit cell.

Unit Cell of an FCC material.
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Unit Cell of an FCC material.


[edit] BCC

Lattice configuration of the slip plane in a BCC material. The arrow represents the burgers vector in this dislocation glide system.
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Lattice configuration of the slip plane in a BCC material. The arrow represents the burgers vector in this dislocation glide system.

Slip in BCC crystals occurs along the plane of shortest burgers vector as well. In the BCC crystal the slip plane is of type {110}, and the direction is of type <111>. In the diagram the specific slip plane and direction are (110) and [-111], respectively.[1]

Unit Cell of a BCC material.
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Unit Cell of a BCC material.

[edit] References

  1. ^ a b c Van Vliet, Krystyn J. (2006); "3.032 Mechanical Behavior of Materials", [1]

[edit] External link

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