NONLINEAR INTERNAL FRICTION, MODULUS CHANGES, AND STRAIN RELAXATION CAUSED BY PEIERLS--NABARRO POTENTIALS.
Journal Article
·
· pp 191-209 of Dislocation Dynamics. Rosenfield, Alan R. (ed.). New York, McGraw-Hill Book Co., 1968.
OSTI ID:4834121
- Research Organization:
- Kernforschung, Juelich, Ger.
- NSA Number:
- NSA-23-012363
- OSTI ID:
- 4834121
- Journal Information:
- pp 191-209 of Dislocation Dynamics. Rosenfield, Alan R. (ed.). New York, McGraw-Hill Book Co., 1968., Other Information: From Colloquium on Dislocation Dynamics Conference, Seattle, Wash. See CONF-670513. Orig. Receipt Date: 31-DEC-69
- Country of Publication:
- Country unknown/Code not available
- Language:
- English
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Related Subjects
N30140* -Metals
Ceramics
& Other Materials-Metals & Alloys-Structure & Phase Studies
CRYSTALS
DEFECTS
DEFORMATION
ENERGY
FRICTION
LATTICES
MONOCRYSTALS
MOTION
PEIERLS-NABARRO FORCE
STRESSES
VARIATIONS
TUNGSTEN/crystals of, moving dislocation energy variations in, prediction of internal friction, modulus defect, and strain relaxation from
CRYSTALS/energy variations of moving dislocations in lattice
prediction of internal friction
modulus defect and strain relaxation from
ALUMINUM/crystal lattice moving dislocation energy variations in, prediction of internal friction, modulus defect, and strain relaxation from
Ceramics
& Other Materials-Metals & Alloys-Structure & Phase Studies
CRYSTALS
DEFECTS
DEFORMATION
ENERGY
FRICTION
LATTICES
MONOCRYSTALS
MOTION
PEIERLS-NABARRO FORCE
STRESSES
VARIATIONS
TUNGSTEN/crystals of, moving dislocation energy variations in, prediction of internal friction, modulus defect, and strain relaxation from
CRYSTALS/energy variations of moving dislocations in lattice
prediction of internal friction
modulus defect and strain relaxation from
ALUMINUM/crystal lattice moving dislocation energy variations in, prediction of internal friction, modulus defect, and strain relaxation from