## Elements of X-Ray Diffraction |

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Page 67

2-26, and the

b). This rotation of the projection is equivalent to rotation of the poles on latitude

circles of a sphere whose north-south axis is perpendicular to the projection ...

2-26, and the

**angle**between them is found by the rotation illustrated in Fig. 2-3 l(b). This rotation of the projection is equivalent to rotation of the poles on latitude

circles of a sphere whose north-south axis is perpendicular to the projection ...

Page 125

(a) DIFFRACTION

through the Bragg

influenced by slight adjust- l ments of the experimental apparatus. Moreover, in

the visual ...

(a) DIFFRACTION

**ANGLE**29 (b) FIG. 4-13. Diffraction by a crystal rotatedthrough the Bragg

**angle**. I* characteristic of the specimen while the latter isinfluenced by slight adjust- l ments of the experimental apparatus. Moreover, in

the visual ...

Page 225

Then the projection is rotated by the same

Wulff net and the zone axis is plotted on the vertical axis of the projection at an

by ...

Then the projection is rotated by the same

**angle**e with respect to the underlyingWulff net and the zone axis is plotted on the vertical axis of the projection at an

**angle**y from the circumference, as in (b). (Note that zone A itself is representedby ...

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#### LibraryThing Review

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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### Common terms and phrases

absorption coefficient absorption edge alloy atomic number austenite axes axis back-reflection Bragg angle Bragg law Bravais lattice calculated camera chart circle composition constant copper cos2 counter counting rate cubic curve Debye ring Debye-Scherrer decreases density determined diffracted beam diffraction lines diffraction pattern diffractometer direction distance electrons elements equation error example face-centered face-centered cubic factor film filter given grain hexagonal incident beam indices integrated intensity lattice parameter Laue method located martensite measured metal normal obtained orthorhombic parallel percent phase photograph pinhole plotted point lattice pole figure position powder pattern preferred orientation produced pulses rays reciprocal lattice reflecting planes relative rhombohedral rotation sample scattering shown in Fig sin2 6 values slit solid solution spacing specimen sphere stereographic projection stress structure substance surface symmetry temperature tetragonal thickness tion transmission twin twin band unit cell vector voltage wave wavelength x-ray diffraction x-ray tube zero zone