Lecture 11 (10/18/2006) Crystallography Part 4: Crystal Forms Twinning
Crystal Forms
Unique Attributes of Crystal Forms
Form Indexes
Trapezohedron, Scalehedron, Rhombehedron, Disphenoid
Isometric Forms
Twinning
Twin Types
Multiple Twins
Twin Laws in the Triclinic System
Twin Laws in the Monoclinic System
Twin Laws in the Orthorhombic System
Twin Laws in the Tetragonal System
Twin Laws in the Hexagonal System
Twin Laws in the Isometric System
Next Lecture
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Crystallography. Part 4: Crystal Forms Twinning

1. Lecture 11 (10/18/2006) Crystallography Part 4: Crystal Forms Twinning

2. Crystal Forms

Habit: the general external
shape of a crystal (e.g.,
prismatic, cubic, bladed...)
Form: refers to a group of
faces which have the same
relation to the elements of
symmetry.
open
form
closed
form
Crystals with higher degrees
of symmetry tend to
generate more form faces.

3. Unique Attributes of Crystal Forms

Anthophyllite
Quartz
NaCl
Pyrite
Faces of particular forms commonly
share unique physical or chemical
attributes

4. Form Indexes

defined by the Miller
index (hkl) of the face
in the positive
quadrant
enclosed in brackets
{hkl}
a {100}, r {111}, c {001}
c
a2
a1
Tetragonal 4/m 2/m 2/m

5.

Low Symmetry Forms
Pyramids and Dipyramids
Prisms

6. Trapezohedron, Scalehedron, Rhombehedron, Disphenoid

7. Isometric Forms

8. Twinning

Symmetrical intergrowth of two or more crystals
related to a symmetry operation (twin element)
that is otherwise absent in a single crystal.
Twin elements includes mirrors, rotation axes
(usually 2-fold) and roto-inversion that usually do
not align with symmetry elements in the crystal.
Twin Laws define the twin element and its
crystallographic orientation (twin planes are
identified by its Miller index (hkl), twin axes are
defined by a zone symbol [hkl]).

9. Twin Types

Potential
Twin Plane (111)
Mirror
Reflection
Twin
Axes
Composition
Plane
Contact Twins
Composition
planes
correspond to twin
planes (mirrors)
Penetration Twins
Composition
planes are
irregular;
formed by
rotational twin
axis operation

10. Multiple Twins

Formed from 3
or more twinned
crystals
- Polysynthetic
twins where
composition
planes are
parallel
- Cyclic twins
where
composition
planes are not
parallel

11. Twin Laws in the Triclinic System

Albite combined
with Pericline Law
[010] twin axis
results in “tartan
twinning” in microcline
(K-feldspar)
Albite Law
{010} twin plane

12. Twin Laws in the Monoclinic System

Note that twin planes do
not align with mirror planes

13. Twin Laws in the Orthorhombic System

contact & cyclic
twinning
Contact or Penetrative??

14. Twin Laws in the Tetragonal System

15. Twin Laws in the Hexagonal System

exception:
twin axis || C
{0112} is most common
and may produce single
contact or polysynthetic
twins

16. Twin Laws in the Isometric System

Penetrative
twins with
twin axes
parallel to
rotational
axes

17. Next Lecture

No Lecture Next Week
Yeah!!!
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