Elements of X-ray DiffractionIntended to acquaint the reader with the theory of x-ray diffraction, the experimental methods involved, and the main applications. The book is a collection of principles and methods stressing X-ray diffraction rather than metallurgy. The book is written entirely in terms of the Bragg law and can be read without any knowledge of the reciprocal lattice. It is divided into three main parts— Fundamentals; experimental methods; and applications. Designed for beginners, not as a reference tool for the advanced reader. |
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Page 327
Bernard Dennis Cullity. A sin2 @ 0.008 0.006 0.004 0.002 0 0 0.2 0.4 0.6 0.8 1.0 sin20 ( observed ) Fig . 10-1 An example of a correction curve for sin2 0 values . aligned slits . Careful specimen preparation and good experimental ...
Bernard Dennis Cullity. A sin2 @ 0.008 0.006 0.004 0.002 0 0 0.2 0.4 0.6 0.8 1.0 sin20 ( observed ) Fig . 10-1 An example of a correction curve for sin2 0 values . aligned slits . Careful specimen preparation and good experimental ...
Page 337
... sin2 0 values with those calculated for all possible values of hkl . 10-5 INDEXING PATTERNS OF NONCUBIC CRYSTALS ( ANALYTICAL METHODS ) Analytical methods of indexing involve arithmetical manipulation of the observed sin2 values in an ...
... sin2 0 values with those calculated for all possible values of hkl . 10-5 INDEXING PATTERNS OF NONCUBIC CRYSTALS ( ANALYTICAL METHODS ) Analytical methods of indexing involve arithmetical manipulation of the observed sin2 values in an ...
Page 338
... sin2 0 values are given by sin2 0 = A ( h2 + hk + k2 ) + CI2 , where A = 2 / 3a2 and C = 22 / 4c2 . Permissible values of ( h2 + hk + k2 ) are tabulated in Appendix 10 ; they are 1 , 3 , 4 , 7 , 9 , etc. The indexing procedure is best ...
... sin2 0 values are given by sin2 0 = A ( h2 + hk + k2 ) + CI2 , where A = 2 / 3a2 and C = 22 / 4c2 . Permissible values of ( h2 + hk + k2 ) are tabulated in Appendix 10 ; they are 1 , 3 , 4 , 7 , 9 , etc. The indexing procedure is best ...
Contents
Geometry of Crystals | 32 |
Chapter 3 | 81 |
EXPERIMENTAL METHODS | 147 |
Copyright | |
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absorption coefficient alloy atomic number austenite back-reflection body-centered Bragg angle Bragg law Bravais lattice calculated camera chart circle collimator constant copper cosē counter counting rate cubic curve Debye ring Debye-Scherrer decreases determined diffracted beam diffraction lines diffraction pattern diffractometer diffractometer axis direction effect electron energy equation error example face-centered face-centered cubic factor film filter given grain hexagonal incident beam indices integrated intensity Kẞ lattice parameter Laue method Laue spot martensite measured metal normal obtained orthorhombic parallel percent phase photographic pinhole pole figure position powder pattern preferred orientation proportional pulses random rays reciprocal lattice reflecting planes relative rotation sample scattering sheet shown in Fig shows slit solid solution spacing specimen spectrometer stereographic projection structure substance surface symmetry temperature tetragonal texture thickness transmission twin unit cell vector voltage wave wavelength x-ray beam x-ray diffraction x-ray tube zone