Treatise on Materials Science and Technology, Volume 2; Volume 19, Part 1 |
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Page 122
The intensity of each subspectrum is a function of concentration c of B atoms and
for a random alloy is given by 12 ! P ( n ) = ( 7 ) ( 12 - ni ni c ( 1 - c ) 12 - n where n
is the number of nearest neighbor B atoms . Although the crystal symmetry ...
The intensity of each subspectrum is a function of concentration c of B atoms and
for a random alloy is given by 12 ! P ( n ) = ( 7 ) ( 12 - ni ni c ( 1 - c ) 12 - n where n
is the number of nearest neighbor B atoms . Although the crystal symmetry ...
Page 130
The use of a consistent model to fit spectra over a range of carbon concentrations
adds weight to the component ... fields at 269 and 348 k0e , whose relative
intensities were proportional to 2c and 4c , where c is the carbon concentration .
The use of a consistent model to fit spectra over a range of carbon concentrations
adds weight to the component ... fields at 269 and 348 k0e , whose relative
intensities were proportional to 2c and 4c , where c is the carbon concentration .
Page 143
Hence , in order to determine the phase concentrations in a mixture , we need to
know the composition and recoiless fraction ... It is due probably to the filling of
the d states with increasing europium concentration leading to an expansion in
the ...
Hence , in order to determine the phase concentrations in a mixture , we need to
know the composition and recoiless fraction ... It is due probably to the filling of
the d states with increasing europium concentration leading to an expansion in
the ...
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Contents
R JAMES | 2 |
Principles of XRay Stress Measurement | 4 |
Control of Accuracy and Precision | 25 |
Copyright | |
15 other sections not shown
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Common terms and phrases
absorption additional allows alloy angle Appl applications atoms bandgap beam broadening cause coefficients components composition composition profile concentration constant containing cooling crystal curve defects dependent deposits depth determined developed diffraction diffusion direction discussed dislocation distance distribution effect electron elements employed energy error et al example excitation experimental factor field function give given grain heat important included increasing intensity intensity bands iron laser lattice layer less magnetic material measurements Metals method Mössbauer observed obtained occur optical parameter peak phase Phys plane position possible powder problem produce range rays recent region relative residual stress sample semiconductors shift shown single Society solid spacing specimen spectra spectrum sputtering steel structure studies substrate surface target technique temperature term thickness values variation volume x-ray
Bibliographic information
| Title | Treatise on Materials Science and Technology, Volume 2; Volume 19, Part 1 Part 2 of Experimental Methods, Herbert Herman Treatise on Materials Science and Technology, Herbert Herman |
| Editor | Herbert Herman |
| Edition | illustrated |
| Publisher | Academic Press, 1972 |
| Original from | the University of California |
| Digitized | 11 Mar 2011 |
| ISBN | 0123418194, 9780123418197 |
| Length | 256 pages |
| Export Citation | BiBTeX EndNote RefMan |