TRANSLATIONAL EFFECTS OF AIR BLAST FROM HIGH EXPLOSIVES. Technical Progress Report
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Published: 1962
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DOWNLOAD EBOOKA computational model was used in studies of the biological effects of blast from nuclear explosions. The translational effects of blast waves for objects as small as a 10-mg stone and as large as a 168-lb man were computed from theoretical studies and results were compared to field data for near-ideal blast waves from nuclear explosions. Results indicate that the motion of experimental objects can be satisfactorily predicted for free-field conditions or for window glass in houses. Results were computed for high explosives with free air burst. Parameters computed include velocity, displacement, and acceleration as functions of time for a variety of objects exposed to blast waves with 12 maximum overpressures ranging from 1 to 20 atm. All computations were made for one ton of high explosives burst in free air, but the results may be readily scaled to lower or higher yields and to surface bursts. The missiles are identified by their acceleration coefficients which range from 0.01 to 6.0 ft2/lb. (C.H.).