Army

Laser-based profilometry systems have also been applied for nondestructive testing and measurement of both smooth-bore and rifled gun tubes. Working through Small Business Innovation Research program, the U.S. Army has developed laser-based profilometry systems for the inspection of the 120mm cannon used on the MI-Al Abrams main battle tank. Systems have also been built to measure the erosion of 25 mm and 155 mm rifled gun tubes. [Pg.1066]

Zemplen was a strong-minded individualist who opposed any totalitarian system, from Nazism to Communism. He was briefly jailed toward the end of World War II by the Hungarian Fascists for refusing to join in the evacuation of the Technical University to Germany when the Russian armies advanced on Budapest. He was also strongly opposed to the Communists. [Pg.53]

Soil. Composting of soils contaminated by high explosives is being carried out at the Umatilla Army Depot near Hermiston, Oregon (70). Soil from munitions washout lagoons is being treated iadoors ia compost rows of 2,000 m, and the estimated cost is less than one-third the estimated cost of iaciaeration. If this is successful, there are 30 similar sites on the National Priority List that could be treated ia a similar way. [Pg.36]

This may also have been a factor in the conquering of the known world by the Roman Legions. Expeditionary and seige forces, even today but much more so then, are at risk for water-borne diseases. The practice of the Roman army to carry with it substantial wine suppHes is seen as sound militarily for health reasons, rather than just from the standpoint of the enjoyment of the soldiers. Recent study indicates that tourist-type diarrheas are less frequently encountered if wine is consumed rather than water, even bottled water (20). [Pg.370]

C. Paone, Preventing Cook-Off with Intumescent Materials, Army RD A Bulletin, Jan.—Feb. 1990. [Pg.8]

A.dhesives, Cjanoac late, Eapid Room Temperature Curing, Solventless, Army Materials and Mechanics Research Center, Watertown, Mass. [Pg.179]

Military Pyrotechnics, AMCP 706-185 to 189, Engineering Design Handbook Series, U.S. Army Material Command (AMC), Alexandria, Va., 1974. [Pg.26]

Structures to Eesist the Effect of Accidental Explosions, Dept, of the Army Technical Manual TM5-1300, Washington, D.C., 1986. [Pg.26]

D. Burrows, Eiterature Eeview of the Toxicity ofEDX and HMX, U.S. Army Medical and Bioengineering Research and Development Lab., Washington, D.C., 1973. [Pg.28]

E. T. Kristoff andj. y Hazards ylnalysis Study of the Continuous TNT Manufacturing Plants, U.S. Army Radford Ammunition Plant,... [Pg.29]

J. R. Poison, Mechanical Pressing of Explosives, Iowa Army Ammunition Plant, Burlington, Iowa, 1973. [Pg.29]

J. Briggs, "A Safer Blast for the Modem Army," in Proceedings of the 14th Annual Explosives Safety Seminar, U.S. Department of Defense Explosive Safety Board, NTIS, Springfield, Va., 1972, p. 313. [Pg.30]

M. E. Lackey, Utilisation of Energetic Materials in an Industrial Combustor, AMXTHE-TE-R 85003, U.S. Army Toxic and Ha2ardous Materials Agency, Edgewood, Md.,June 1985. [Pg.30]

P. E. Eaton, in S. Iyer, ed.. Proceedings of the Ninth Annual Working Group Institute on the Synthesis of High Energy Density Materials, U.S. Army, ARDEC, Picatinny Arsenal, N.J., June 90. [Pg.30]

MilitaTj Explosives, Dept, of the Army technical manual, TM9-1300-214, Sept. 1984. [Pg.31]

Continuous Solvent—Extrusion Process. A schematic for a typical continuous process, widely used for making solvent propellant for cannons, is shown in Figure 7. This continuous process produces ca 1100 metric tons of single-base propellant per month at the U.S. Army Ammunition Plant (Radford, Virginia). Continuous processes have also been developed for double- and triple-base propellants and for stick as well as granular geometries. A principal aspect of these processes has been the extensive use of single- and double-screw extmders instead of the presses used in the batch process. [Pg.44]

Propellants," under "Explosives and Propellants," in ECT3rd ed., Vol. 9, pp. 620—671, by V. Lindner, U.S. Army Armament Research and Development Command. [Pg.53]

M Continuous Automated Cannon PropellantFacility, Radford Army Ammunition Plant, Radford, Va., 1970. [Pg.56]

J. T. Gxsxe glmproved Specifications for Composite Propellant Binders for Army Weapon Systems,TR-T-19-16, A-aayMssAe Command, Huntsville, Ala.,July 1979. [Pg.56]

The Annual Proceedings of the Joiat Army-Navy-Air Force (JANNAF) Propulsion Meetings, the reports of the special committees, and the periodic hterature surveys pubHshed by the Chemical Propulsion Information Agency including the aimual Chemical Propulsion Abstracts are iuvaluable sources of information on all aspects of Hquid and soHd gun and rocket propellants. They maybe classified. [Pg.57]

Solid Propellant Manuals, issued by the Army Material Command, AMC 706—175, 1961, and AMC 706—176, 1961. [Pg.57]

C. H. Wheeler, Foamed Plastics, U.S. Army Natick Labs and Committee on Foamed Plastics, U.S. Dept. Comm. Office Tech. Serv. PB Rept. 181576, Apr. 22-23, 1963, p. 164. [Pg.424]

Dextran. This polysaccharide is produced from sucrose by certain species of l euconostoc (70). Dextran [9004-54-0] was the first commercial microbial polysaccharide. It was used as a blood plasma extender in the U.S. Army during the late 1940s and early 1950s. This program was discontinued in 1955. [Pg.436]

One of the principal advantages of hydrides for hydrogen storage is safety (25). As part of a study to determine the safety of the iron—titanium—manganese metal hydride storage system, tests were conducted in conjunction with the U.S. Army (26). These tests simulated the worst possible conditions resulting from a serious coUision and demonstrated that the metal hydride vessels do not explode. [Pg.455]

The fluoroelastomers possess good mbber properties with the added advantages of being nonburning, hydrophobic, and solvent- and fuel-resistant. In addition to these, because of flexibiHty down to about —60° C, these polymers have been used in seals, gaskets, and hoses in army tanks, in aviation fuel lines and tanks, as well as in cold-climate oil pipeline appHcations. These polymers have also found appHcation in various types of shock mounts for vibration dampening (14,17). [Pg.257]

In addition to their automotive use, PAO oils also find appfication in industrial and aircraft hydraufic fluids, gear oils, compressors, and environmentally sensitive appfications. They are also used in multipurpose greases for army, navy, nuclear, and industrial appfications. Expanding use has led to a growth rate of PAO production from 1985 to 1990 of 19% per year (28). [Pg.245]

U. S. Army Materiel Command, Engineering Design Handbooks-Development Guide forReliability, Part 2 Design for Reliability (AMCP 706-196) Part 3 Reliability Prediction (AMCP 706-197) Part 4 Reliability Measurement (AMCP 706-298), National Technical Information Service, Springfield, Va., 1976. [Pg.15]

American Association of Textile Chemists and Colorists P.O. Box 12215 Research Triangle Park, NC 27709 Inter-Society Color Council U.S. Army Natick R D Center Att STRNC-ITC Natick, Mass. 01760 Friction Materials Friction Materials Standards Institute E210, Route 4 Paramus, NJ 07652 Feather Tanners Council of America 2501 M Street, NW Washington, D.C. 20037... [Pg.25]

H. S. Savage and R. G. McCormack, Arc Sprayed Coatings for Electromagnetic Pulse Protection, USA-CERL Technical Report M-89 /15, U.S. Army Corps of Engineers, Washington, D.C., 1989. [Pg.140]

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