Atomics International

H. Mandel and N. Ewbank, Critical Constants of Diphenyl and Eerphenyl, Report No. NAA-SR-5129, Atomics International, Canoga Parks, Calif., Dec. 1960, p. 18. [Pg.120]

E. C. Sanderson, A. W. Brewer, R. W. Krenzer, G. Krauss, Dislocation Substructures in High-Energy-Rate-Forged and Press-Formed 21-6-9 Stainless Steel , Rockwell International Atomics International Division, Rocky Flats Plant, P. O. Box 464, Golden, CO 80401, RFP-2743, July 24, 1978. [Pg.234]

Present address Atomics International, Research and Advanced Development Division, Canoga Park, Calif. [Pg.444]

W Single atom (internal overlap interval) General Iona S(tiax, n/y)... [Pg.161]

Internal transition A mode of radioactive decay, where an excited nucleus transfers energy to an electron and expels the electron from the atom. Internal transition is responsible for transforming certain arsenic isomers from higher to lower energy states (Table 2.1). [Pg.453]

A few gamma irradiations were made through the courtesy of Atomic International, using the Co60 source, and the rest in the fuel rod assembly at the Ar-gonne National Laboratory. In the last case, the samples were sealed in evacuated glass ampoules. [Pg.67]

Korst, W. L., Tannenbaum, I. R., Miller, K. T., Research Division, Atomics International, private communication. [Pg.69]

Figure 17. The combinatorial DOCK algorithm. The receptor site is filled with spheres and then the scaffold atom-atom internal distances are matched to the site sphere-sphere distances. The matching process is used to orient the scaffold inside the active site. All components from all attachment sites are placed on the scaffold individually and scored. The top scoring components are combined on the scaffold, and tested for intramolecular clashes. Resulting best scores are saved. The process is repeated for a new orientation.

Atomics International uses molten sodium carbonates hydrogen and carbon monoxide not differentiated demonstrated. [Pg.287]

Atomics International, A Division of Rockwell International Corp.,... [Pg.174]

A. F. Lillie, D. T. McClelland, W. J. Roberts, J. H. Walter, Zirconium Hydride Fuel Element Performance Characteristics, U.S. AEC Report Al-AEC-13084, Atomics International, Canoga Park, CA, June 1973. [Pg.598]

K. E. Moore, M. M. Nakata, Phase Relationships in the Alpha-Plus-Delta Region of the Zr-H System, U.S. AEC Report AI-AEC-12703, Atomics International, Canoga Park, CA, U.S. September 1986. [Pg.598]

H. E. Johnson, Hydrogen Dissociation Pressures of Modified SNAP Fuel, Atomics International Report NAA-SR-9295, Canoga Park, CA, 1964. [Pg.598]

The AIROX (Atomics international Reduction Oxidation) process is being developed to reprocess spent uranium oxide-based fuel. It is a cyclic oxidation-reduction process that employs only gaseous and solid materials no liquids are used. Hence, this process is often referred to as a dry process which simultaneously declads and pulverizes the fuel. Pulverization permits release of volatile fission products and comminutes the fuel for reenrichment and recycle. It also provides gaseous access to unreacted fuel in the center of the pellet. [Pg.212]

Wellman-Galusha Hydrane Bigas Atomics International... [Pg.66]

Heredy, L. A., Atomics International Division of Rockwell International,... [Pg.210]

The writers wish to acknowledge the assistance of Michael Klenck, Atomics International, Chemistry Technology Department, who made the x-ray diffraction analyses of copper sulfide materials. [Pg.223]

Received July 17, 1974. This work was funded jointly by the Edison Electric Institute (now the Electric Power Research Institute), the Tennessee Valley Authority, and Rockwell International Corp., Atomics International Division. [Pg.223]

Tihe aqueous carbonate process (ACP) has been under development at Atomics International for the last 4% yr. The program aims to establish a technology which eliminates or minimizes the major problems encountered in operating most other sulfur dioxide removal processes. That technology includes the use of sodium carbonate as the scrubbant in the modified spray dryer and the complete regeneration of the sulfur dioxide removal products to recover elemental sulfur and produce sodium carbonate for reuse in the spray dryer-scrubber. [Pg.171]

Darnell, A. J., The free energy, heat, and entropy of formation of thorium tetrafluoride. Atomics International, Report NAA-SR-4924, (1960). Cited on pages 200, 201, 463, 601. [Pg.796]

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