ELECTRON MICROSCOPE INVESTIGATIONS OF THE DISLOCATION ARRANGEMENT OF DEFORMED COPPER SINGLE CRYSTALS IN THE STRESS-APPLIED STATE. I. THE DISLOCATION ARRANGEMENT AT THE END OF STAGE I. (in German)
Journal Article
·
· Phil. Mag. 23: 869-95(Apr 1971).
OSTI ID:4065635
- Research Organization:
- Max-Planck-Institut fuer Metallforschung, Stuttgart
- NSA Number:
- NSA-25-035520
- OSTI ID:
- 4065635
- Journal Information:
- Phil. Mag. 23: 869-95(Apr 1971)., Other Information: Orig. Receipt Date: 31-DEC-71; Bib. Info. Source: UK (United Kingdom (sent to DOE from))
- Country of Publication:
- United Kingdom
- Language:
- German
Similar Records
ELECTRON MICROSCOPE INVESTIGATIONS OF THE DISLOCATION ARRANGEMENT OF DEFORMED COPPER SINGLE CRYSTALS IN THE STRESS-APPLIED STATE. II. THE DISLOCATION ARRANGEMENT IN STAGE II.
ELECTRON MICROSCOPE INVESTIGATIONS OF THE DISLOCATION ARRANGEMENT OF DEFORMED COPPER SINGLE CRYSTALS IN THE STRESS-APPLIED STATE. III. A COMPARISON OF SOME CHARACTERISTIC QUANTITIES OF THE DISLOCATION STRUCTURE IN THE STRESS-APPLIED AND STRESS-REMOVED STATES.
ELECTRON MICROSCOPE OBSERVATIONS ON THE DISLOCATION ARRANGEMENT IN DEFORMED COPPER SINGLE CRYSTALS IN THE STRESS-APPLIED STATE.
Journal Article
·
Fri Jan 01 00:00:00 EST 1971
· Phil. Mag. 23: 897-929(Apr 1971).
·
OSTI ID:4065635
ELECTRON MICROSCOPE INVESTIGATIONS OF THE DISLOCATION ARRANGEMENT OF DEFORMED COPPER SINGLE CRYSTALS IN THE STRESS-APPLIED STATE. III. A COMPARISON OF SOME CHARACTERISTIC QUANTITIES OF THE DISLOCATION STRUCTURE IN THE STRESS-APPLIED AND STRESS-REMOVED STATES.
Journal Article
·
Fri Jan 01 00:00:00 EST 1971
· Phil. Mag. 23: 931-47(Apr 1971).
·
OSTI ID:4065635
ELECTRON MICROSCOPE OBSERVATIONS ON THE DISLOCATION ARRANGEMENT IN DEFORMED COPPER SINGLE CRYSTALS IN THE STRESS-APPLIED STATE.
Journal Article
·
Mon Jan 01 00:00:00 EST 1968
· Phil. Mag., 18: 1211-18(Dec. 1968).
·
OSTI ID:4065635
Related Subjects
N30150* -Metals
Ceramics
& Other Materials-Metals & Alloys-Radiation Effects
ANGULAR DISTRIBUTION
COPPER
DEFORMATION
DISLOCATIONS
ELECTRON MICROSCOPY
FAST NEUTRONS
IRRADIATION
LOW TEMPERATURE
MONOCRYSTALS
NEUTRON BEAMS
RADIATION EFFECTS
SLIP
STRAIN HARDENING
STRESSES
COPPER/radiation effects on Stage I dislocation arrangement of deformed monocrystalline
in stress-applied state
electron microscope study of fast neutron
NEUTRONS
FAST/effects on Stage I dislocation arrangement of deformed copper monocrystals in stress-applied state
electron microscope study of
Ceramics
& Other Materials-Metals & Alloys-Radiation Effects
ANGULAR DISTRIBUTION
COPPER
DEFORMATION
DISLOCATIONS
ELECTRON MICROSCOPY
FAST NEUTRONS
IRRADIATION
LOW TEMPERATURE
MONOCRYSTALS
NEUTRON BEAMS
RADIATION EFFECTS
SLIP
STRAIN HARDENING
STRESSES
COPPER/radiation effects on Stage I dislocation arrangement of deformed monocrystalline
in stress-applied state
electron microscope study of fast neutron
NEUTRONS
FAST/effects on Stage I dislocation arrangement of deformed copper monocrystals in stress-applied state
electron microscope study of