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Page 222
We then measure the angles between important poles (zone intersections and
zone axes) and try to identify the poles by ... which lies on the great circle
between PA and PB and at an angular distance of 45° from each, must be a {110}
pole.
We then measure the angles between important poles (zone intersections and
zone axes) and try to identify the poles by ... which lies on the great circle
between PA and PB and at an angular distance of 45° from each, must be a {110}
pole.
Page 284
The complete set of arcs defines areas of high pole density and, by reflecting
these areas in the symmetry planes mentioned above, we arrive at the complete
pole figure shown in Fig. 9–16. In practice, the variation of intenR.D. sity around a
...
The complete set of arcs defines areas of high pole density and, by reflecting
these areas in the symmetry planes mentioned above, we arrive at the complete
pole figure shown in Fig. 9–16. In practice, the variation of intenR.D. sity around a
...
Page 292
It is evident that the transmission and reflection methods complement one
another in their coverage of the pole figure. The usual practice is to use the
transmission method to cover the range of a from 0° to −50° and the reflection
method from ...
It is evident that the transmission and reflection methods complement one
another in their coverage of the pole figure. The usual practice is to use the
transmission method to cover the range of a from 0° to −50° and the reflection
method from ...
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User Review - ron_benson - LibraryThingExcellent reference book. Needs some updating in terms of advances in detector technology. Read full review
Contents
PROPERTIES OF XRAYs | 1 |
THE GEOMETRY OF CRYSTALs | 29 |
THE DIRECTIONs of DIFFRACTED BEAMs | 78 |
Copyright | |
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Elements of X-ray Diffraction Bernard Dennis Cullity,Stuart R. Stock,Stuart R.. Stock Snippet view - 2001 |
Common terms and phrases
absorption alloy analysis angle applied atoms axis Bragg calculated camera cause circle composition consider constant contains continuous copper counter counting crystal cubic curve decreases depends described determined diffracted beam diffraction lines diffractometer direction distance effect electrons elements energy equal equation error example factor Figure film fluorescent given gives grain hexagonal incident beam increases indices intensity involved kind known lattice Laue length located material means measured metal method normal observed obtained occur orientation parallel parameter particular pattern percent phase photograph plane plotted pole position possible powder produced projection proportional pulses radiation rays reference reflection relation relative result rotation sample scattering shown shown in Fig shows simple single solid solution spacing specimen stress structure substance surface temperature thickness tion tube twin unit cell usually vector voltage wave wavelength x-ray
Bibliographic information
| Title | Elements of X-ray Diffraction Volume 5 of Addison-Wesley metallurgy series Volume 1230 of Addison-Wesley series in metallurgy and materials |
| Author | Bernard Dennis Cullity |
| Edition | 3 |
| Publisher | Addison-Wesley Publishing Company, 1956 |
| ISBN | 0201012308, 9780201012309 |
| Length | 514 pages |
| Export Citation | BiBTeX EndNote RefMan |