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Energy Relative Release During Susan Test for

Detonation (and Explosion), Energy (Relative) Release During Susan Tests for Ignition of Explosives by Impact. Tables 2, 3 4, pp [Pg.266]

Estane as binder), PBX-9404-03 (HMX with 3% NC 3% chloroethyl phosphate as binders) and Composition B-3- Viton A is dilPont Vinyliden fluoride hexafluropropylene copolymer [Pg.267]

See under Detonation (and Explosion), Energy of. See also Cook(1958), 78-9 and the next item [Pg.267]

If not, the wave has the more usual peaked pressure/time profile a following rarefaction produces a negative phase, and the shock strength steadily declines because of the energy degradation accompanying the progress of the wave [Pg.267]

The energy increment that is passed on has been called the enthalpy excess, but might better be called the thermal or internal energy excess, for the products at the iso-choric adiabatic explosion temperature have, by definition, exactly the same total internal energy as the original undetonated explosive [Pg.267]

Energy (relative) release during Susan test for ignition of expls by impact 4 D266... [Pg.598]

See other pages where Energy Relative Release During Susan Test for is mentioned: [Pg.740]    [Pg.740]    [Pg.756]    [Pg.740]    [Pg.740]    [Pg.756]   


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