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University of Dayton

G. L. Wiser, "Sierracin Glass/Plastic Composite Wiadshields," presented at Conference on Transparent Materialsfor Aerospace Enclosures, U.S. Air Eorce and University of Dayton, June 25, 1969. [Pg.529]

T. Ojima and co-workers, / Appl Phjs. 16, 671 (1977) IEEE Trans. Mag. 13, 1317 (1977) K. J. Stmat, ed.. Proceedings 3rd International Workshop on Rare Earth-Cobalt Permanent Magnets, University of Dayton, Ohio, 1978, p. 406. [Pg.386]

C. Herget, ia K. Stmat, ed.. Proceedings of the 8th International Conference on Rare-Earth Magnets and Their Applications University of Dayton PubHshers,... [Pg.403]

A. M. Rajendran and W. H. Cook, "A Comprehensive Review of Modeling of Impact Damage in Ceramics," Joint report between the University of Dayton Research and the Air Force Armament Eaboratory, AFATL-TR-88-143 SBI-AD-E801 843, 99 pp., Dec. 1988. [Pg.328]

Proceedings of the International Symposium on the Decomposition of Organo-metallics to Refractory Ceramics, Metals, and Metal Alloys, ed. K. S. Masdiyasni, University of Dayton Press, Dayton, Ohio, 1968. [Pg.453]

Department of Chemistry, University of Dayton, Dayton, Ohio. This work was supported by Wright Air Development Division of the United States Air Force, Air Research and Development Command, under Contract No. AF 35(616)-6607. [Pg.38]

A two-step laboratory thermal-decomposition analytical system involving vaporization and thermal destruction was developed in 1975 by the University of Dayton Research Institute for EPA (6). Vaporization of pure pesticide occurred at 200 to 300°C and was followed by decomposition in a quartz tube at temperatures exceeding 900 C. The destruction efficiencies for DDT, Kepone, and mirex exceeded 99.99% at 2-s residence time and greater than 900 C. [Pg.182]

Subsequently, modified thermal decomposition systems were developed by the University of Dayton to investigate the destruction of complex hazardous waste mixtures ]). These systems utilized various combinations of gas chromatographs/mass spectrometers/computers which were incorporated into the vaporization and decomposition process. [Pg.183]

University of Dayton Research Institute, 300 College Park Avenue, Dayton, OH 45469-0001... [Pg.349]

Ehrman, Keith A., and Dennis A. Henigan. The Second Amendment in the Twentieth Century Have You Seen Your Militia Lately University of Dayton Law Review, vol. 15, 1989, pp. 5-58. Argues that the Second Amendment guarantees an individual right to keep and bear arms only to the extent it is necessary for the maintenance of an effective militia. Because the federally directed National Guard has replaced the old state militias, it is no longer necessary for private individuals to have firearms, and there is no obstacle to prohibiting them. [Pg.198]

Horwitz, Joshua M. Kelley v. R.G. Industries, Inc. A Cause of Action for Assault Weapons. University of Dayton Law Review , vol. 15,1989, pp. 125-139. Argues that the legal theory used against manufacmrers of Samrday night... [Pg.217]

T0845 University of Dayton, Research Institute Photothermal Detoxification Unit... [Pg.47]

T0845 University of Dayton Research Institute, Photothermal Detoxification Unit T0853 UV Technologies, Inc., UV-CATOX Technology T0855 Vapor-Phase Biofiltration—General... [Pg.221]

T0838 United Retek Corporation, Asphalt Emulsion Stabilization T0841 University of Akron, Sonochemical Destruction T0844 University of Connecticut, Contaminant Absorption and Recovery T0845 University of Dayton Research Institute, Photothermal Detoxification Unit T0852 US EPA Risk Reduction Engineering Laboratory, Mobile Volume Reduction Unit (VRU)... [Pg.315]

The University of Dayton Research Institute has developed a photo-thermal detoxification unit (PDU) that can completely destroy vapor-phase organic contaminants from soil, sludge, and aqueous streams. The PDU is a patented technology that is available for licensing. Engineering plans for construction of a PDU are commercially available. The technology has not been demonstrated on a field scale but has been used in laboratory studies of simulated wastes. [Pg.1099]

Browning, C. E. Ph. D. thesis, University of Dayton, Dayton, Ohio 1976... [Pg.44]

Air Force Materials Laboratory, Wright-Patterson Air Force Base, Ohio 45433 University of Dayton Research Institute, Dayton, Ohio 45424... [Pg.222]

Yamada T, Taylor PH (2003) Laboratory-scale thermal degradation of perfluorooc-tanyl sulfonate and related substances. Environmental Sciences and Engineering Group, University of Dayton, Research Institute, Dayton, OH... [Pg.436]

Multiscale Composites and Polymers Division University of Dayton Research Institute Dayton, Ohio... [Pg.860]

University of Dayton (OH) 4-5 3 Students with a score of 5 may be eligible for additional credit. [Pg.594]

Dr. Gary W. Morrow earned his B.A. and Ph.D. degrees at the Ohio State University and is presently professor of chemistry at the University of Dayton. His research interests include organic synthesis and organic electrochemistry. [Pg.1050]

Center for Basic and Applied Polymer Research, University of Dayton,... [Pg.111]

See other pages where University of Dayton is mentioned: [Pg.443]    [Pg.1216]    [Pg.604]    [Pg.158]    [Pg.103]    [Pg.1099]    [Pg.9]    [Pg.443]    [Pg.1039]    [Pg.118]    [Pg.346]   
See also in sourсe #XX -- [ Pg.111 ]



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