Alloy Modeling & Design: Proceedings of a Symposium Sponsored by the TMS Structural Materials Division (SMD), the Committee on Alloy Phases (CAP), and the Electronic, Magnetic and Photonic Materials Division (EMPMD), the Oak Ridge National Laboratory and the Lawrence Livermore National Laboratory, Held During Materials Week '93, Pittsburgh, Pennsylvania, October 18-20, 1993G. M. Stocks, Patrice E. A. Turchi This work brings together contributions from researchers in a variety of fields that have a common interest in applying the most recent developments in basic research to the design of new alloys. The papers are from Materials Week '93 held in Pittsburgh, Pennsylvania, October 17-21, 1993. |
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Page 151
... vibrational entropy via normal modes Each calculation begins with an fcc array of atoms . The species of each is determined either at random at a concentration of 3 : 1 or so as to give the L12 structure . A small error is introduced ...
... vibrational entropy via normal modes Each calculation begins with an fcc array of atoms . The species of each is determined either at random at a concentration of 3 : 1 or so as to give the L12 structure . A small error is introduced ...
Page 199
... vibrational effects on the phase diagram . Some concerns have been raised as to whether this cluster expansion of the vibrational free energy is rapidly convergent or not . For this one - dimensional system , the leading term in the ...
... vibrational effects on the phase diagram . Some concerns have been raised as to whether this cluster expansion of the vibrational free energy is rapidly convergent or not . For this one - dimensional system , the leading term in the ...
Page 324
... vibrational entropy , 151 , 153 vibrational free energy , 195 , 196 vibrational frequencies , 151 vibrational properties , 194 W Warren - Cowley short - range order ( SRO ) parameter , 49 , 101 X x - ray diffraction , 259 Y yield ...
... vibrational entropy , 151 , 153 vibrational free energy , 195 , 196 vibrational frequencies , 151 vibrational properties , 194 W Warren - Cowley short - range order ( SRO ) parameter , 49 , 101 X x - ray diffraction , 259 Y yield ...
Contents
CONSEQUENCES OF OSCILLATORY POTENTIALS AND ANGULAR | 13 |
FIRSTPRINCIPLES TIGHTBINDING TOTAL ENERGY | 25 |
Contributed Papers | 33 |
Copyright | |
29 other sections not shown
Common terms and phrases
addition aging agreement alloys approach approximation atoms average band behavior binary bonding boundary calculations cell chemical cluster compared composition compounds computed concentration configuration consistent contribution correlation crystal defects density dependence described determined diffraction discussed dislocation disordered displacement distance effect elastic electronic electronic structure elements energy expansion experiment experimental FeAl Figure formation function given grain boundaries important included increase indicates interactions intermetallic lattice magnetic Materials matrix measured mechanical Metals method neighbor NiAl observed obtained occupation ordered orientation pair parameters phase diagram Phys Physics plane potential predicted present properties range References relative respectively samples scattering Science shown simulations solid solution stability Stocks strain strength stress structure surface Table techniques temperature ternary theory total energy transition vacancy vibrational volume x-ray yield
References to this book
Encyclopedia of Applied Physics, Volume 18 George L. Trigg,Eduardo S. Vera,Walter Greulich No preview available - 1997 |