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- How do we Represent Textures?
- Stereographic Projection: Definition
- Stereographic Projection: <100> Poles
- Stereographic Projection: <111> Poles
- Pole Figures for Polycrystals
- Pole Figures for Polycrystals II
- Limitations of Pole Figures
- Euler Angles Defined
- Euler Angles and Euler Space
- Orientation Distribution Function (ODF)
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Stereographic Projection: <111> Poles
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Click here to compare the <100> and <111> pole figures in a new window |
Pole figures do not have to show the projections of the <100> set of poles. In fact other sets of poles, such as <111> are often more widely used.
Here you can explore the relationship between the orientation of the unit cell (i.e. in 3D space) and the <111> poles on the stereographic projection. Use the three slider controls to rotate the unit cell around its different axes.
Pole figures for other family of planes, e.g. <110>, <112>, etc. can be constructed in a similar way.
Authors/Contributors
- Gunter Gottstein, IMM-RWTH
- Markus Buescher, IMM-RWTH
- Jürgen Hirsch, Hydro Aluminium Deutschland GmbH
Site developed in partnership between the European Aluminium Association and MATTER
© 2001-2009 MATTER, The University of Liverpool.
aluMATTER is part-funded by the Leonardo da Vinci programme of the EU.
© 2001-2009 MATTER, The University of Liverpool.
aluMATTER is part-funded by the Leonardo da Vinci programme of the EU.
