Designing Facilities to Resist Nuclear Weapons Effects Hardness VerificationHeadquarters, Department of the Army, 1984 - Blast effect |
Common terms and phrases
20t TNT 50 TABLE air entrainment air-entrainment systems Albuquerque analysis assessment binomial distribution Blast Load blast valve Boolean algebra burst calculations cavity Cedar City components conducted confidence interval Corps of Engineers crater-induced debris detonation DIHEST Displacement distribution Duration Dynamic Pressure Electromagnetic Pulse elements EMP E-Field entrainment system environment equations equipment explosive facility failure modes fault tree field tests Figure free-field ft dia ft long full-scale GE-TEMPO GRABS ground motion ground shock hardness verification HEST test hypothesis Kirtland AFB ments Monte Carlo Monte Carlo method nuclear weapon effects Oscillograph overpressure parameters peak performed Primacord probability random random variable range resistance response sample shock tube Simulation Technique soil specified spherical statistical structures subsystem surface survivability TABLE A-2 Test section Thermal Thermal Radiation Time-dependent measurements tion transfer functions U.S. Army Corps uncertainties variables velocity verification analyst wave weapon-effect loads
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Page 22 - It should be pointed out that because of the difficulty in introducing minute openings or poor bonds into models, and since these often control...
Page 22 - However, once the exterior fields, voltages, and currents are known for a complex structure, perhaps having cable runs, analysis can often yield internal field quantities of interest.