SLIP:
A slip involves the sliding of blocks of crystal over one another along different crystallographic planes known as slip planes.
TWINNING:
In twinning, the portion of crystals takes up an orientation related to the orientation of the rest of the untwined lattice in a symmetrical and definite way.
Call for Papers - African Journal of Biological Sciences, E-ISSN: 2663-2187, ...
Slip and Twinning, Dislocations, Edge Dislocations and Screw Dislocations
1. Slip and Twinning
Mr. MANICKAVASAHAM G, B.E., M.E., (Ph.D.)
Assistant Professor,
Department of Mechanical Engineering,
Mookambigai College of Engineering,
Pudukkottai-622502, Tamil Nadu, India.
Email:mv8128351@gmail.com
Dr. R.Narayanasamy, B.E., M.Tech., M.Engg., Ph.D., (D.Sc.)
Retired Professor (HAG),
Department of Production Engineering,
National Institute of Technology,
Tiruchirappalli-620015, Tamil Nadu, India.
Email: narayan19355@gmail.com
2. SLIP:
A slip involves the sliding of blocks of crystal over one another along different
crystallographic planes known as slip planes.
TWINNING:
In twinning, the portion of crystals takes up an orientation related to the orientation of the
rest of the untwined lattice in a symmetrical and definite way.
Definition
3. Plastic deformation occurs when dislocations move through the crystal lattice, causing a
change in the shape of the material.
Unlike elastic deformation, where the material returns to its original shape after the
applied stress is removed, plastic deformation results in a lasting change in shape.
5. Slip takes place along the
close packed planes and close
packed directions.
When slip is difficult to take
place twinning occurs.
6. Slip Twinning
Occurs in discrete multiples of atomic spacing The movement of atoms is lesser in atomic spacing
The orientation of the crystal above and below the slip
plane is the same after deformation as before.
Orientation difference takes places across the twin plane
Occurs over a wide plane Every atomic plane is involved
Slip occurs when shearing stress on the slip plane in the
slip direction strikes a threshold value known as the critical
resolved shear stress.
No critical resolved shear stress for twinning.
Takes places in several milliseconds Takes place in few microseconds
Slip lines are present in even or odd numbers Twin lines occur in pair
Difference Between Slip and Twinning
9. Shape changes arising from dislocation glide and
deformation twinning (a shear transformation)
10. The figure schematically depicts the motion of atoms during (a) dislocation glide and (b) deformation
twinning, stimulated in both cases by an applied tensile stress.
Slip tends to take place by repeated passage of dislocations on specific slip planes.
For a single crystal, in the early stages (as depicted here), the slip takes place on a single system
(slip plane and slip direction), with little or no interference between individual dislocations.
The schematic does not show individual dislocations, but illustrates the displacement of parts of the
lattice, relative to other parts, created by their passage.
For deformation twinning, on the other hand, the simultaneous, rapid displacement of a large number
of neighbouring atoms, all in the same direction, also creates a (shear) displacement of the lattice,
although in this case the sheared region has a different orientation from that of the parent crystal.
In fact, the structure is a mirror image of the parent, reflected across the twin plane.
Contd.
14. An example of a conservative dislocation motion is motion of an edge dislocation (arrows
show the applied shear stress) [47]
15.
16.
17.
18.
19. 1 Schematic diagrams of A) an edge and B) screw dislocation in an atomic lattice.
20. FIG. 2. A step on a crystal face arising from a screw dislocation which gives a growth front for
extension of the crystal as a Riemann surface generated by the spiral.
