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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Results 1-3 of 13
Page 64
... grain boundary in NizAl compound . We present in Fig.6 the calculated cleavage strength f ( in unit of 1010 Pa ) as ... boundaries . The cleavage strength of the Ni enriched grain boundary is shown by symbols . In the boron segregated or ...
... grain boundary in NizAl compound . We present in Fig.6 the calculated cleavage strength f ( in unit of 1010 Pa ) as ... boundaries . The cleavage strength of the Ni enriched grain boundary is shown by symbols . In the boron segregated or ...
Page 235
... grain boundaries ) and ( 2 ) the mechanical behavior of grain boundaries . The grain boundary properties can change dramatically with small changes in composition . Similar to the bulk properties , they may be subject to extrinsic ...
... grain boundaries ) and ( 2 ) the mechanical behavior of grain boundaries . The grain boundary properties can change dramatically with small changes in composition . Similar to the bulk properties , they may be subject to extrinsic ...
Page 284
... grain boundary and matrix chemistry in NiAl doped with boron , carbon or beryllium has shown that boron segregated to grain boundaries whereas carbon and beryllium did not [ 6-8 ] in agreement with earlier Auger electron spectroscopy ...
... grain boundary and matrix chemistry in NiAl doped with boron , carbon or beryllium has shown that boron segregated to grain boundaries whereas carbon and beryllium did not [ 6-8 ] in agreement with earlier Auger electron spectroscopy ...
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
10Ti alloy Acta Metall Al-Li Al3Ti Alloy Modeling Alloy Phase alloys annealing APB energy approximation atom probe behavior binary alloys cluster expansion composition computed configuration density Design Edited dislocation displacement ductility Edited by G.M. effect elastic constants electronic structure entropy equivolume expansion experimental FeAl Fermi energy Fermi surface Figure first-principles formation energy free energy friction stress G.M. Stocks glide plane grain boundaries Grand Potential Hamiltonian increase intermetallic compounds Ising model lattice constants lattice parameter Lett magnetic Materials Science Materials Society matrix Metals & Materials method Modeling and Design nearest neighbor Ni3Al NiAl obtained ordered P.E.A. Turchi phase diagram phase stability phonon Phys plane point defects potential predicted samples screw shown in Fig simulations solid solution Stocks and P.E.A. stoichiometry sublattice techniques ternary theory thermal tight-binding total energy transition metal trialuminides Turchi The Minerals unit cell vibrational x-ray
References to this book
Encyclopedia of Applied Physics, Volume 18 George L. Trigg,Eduardo S. Vera,Walter Greulich No preview available - 1997 |