AN INVESTIGATION OF THE RELATION OF DYNAMIC STRAIN AGING TO FLOW STRESS COMPONENTS IN TITANIUM AND ZIRCONIUM. Progress Report

Published: United States : [publisher not identified], 1970.
[Oak Ridge, Tennessee] : [U.S. Atomic Energy Commission], 1970.
Physical Description: microfiche : negative ; 11 x 15 cm

Availability

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Report Numbers

ORO-3262-15

Other Subject(s)

Anisotropy- deformation- ductility- hardness- stresses- temperature- titanium
Deformation- ductility- lattices- low temperature- monocrystals- relaxation- slip- tensile properties- twinning- zirconium
Metals/deformation of polycrystalline, method for measuring
N30130 -metals, ceramics, & other materials-metals & alloys-properties evaluations
N30140 -metals, ceramics, & other materials-metals & alloys-structure & phase studies
Titanium/ductility and strain aging minima in, dynamic
Titanium/hardening of, effects of temperature on.
Titanium/strain anisotropy variations in.
Zircaloy-2/ tensile properties of, determination by stress rupture tests
Zirconium/ slip and twinning in monocrystalline and polycrystalline, comparison of.
Zirconium/deformation at 770k, role of twinning in.
Zirconium/ductility and strain aging minima in, dynamic
Zirconium/ductility of, methods for improvement of.
Zirconium/hardening of, effects of temperature on.
Zirconium/strain relaxation in, at constant stress
Zirconium/tensile properties at 4.2-k.

Collection

U.S. Atomic Energy Commission depository collection.

Note

DOE contract number: AT(40-1)-3262
NSA number: NSA-24-019423
OSTI Identifier 4174477
Research organization: Florida Univ., Gainesville. Dept. of Metallurgical and Materials Engineering.

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