Smokeless powders, or propellants, are essentially
mixtures of chemicals designed to burn under controlled
conditions at the proper rate to propel a projectile
from a gun. Smokeless powders are made in three forms:
1. Thin, circular flakes or wafers
2. Small cylinders
3. Small spheres
Single-base smokeless powders derive their main
source of energy from nitrocellulose.
The energy released from double-base smokeless
powders is derived from both nitrocellulose and
nitroglycerin.
All smokeless powders are extremely flammable; by
design, they are intended to burn rapidly and vigorously
when ignited.
Oxygen from the air is not necessary for the
combustion of smokeless powders since they contain
sufficient built-in oxygen to burn completely, even in
an enclosed space such as the chamber of a firearm.
In effect, ignition occurs when the powder granules
are heated above their ignition temperature. This can
occur by exposing powder to:
1. A flame such as a match or primer flash.
2. An electrical spark or the sparks from welding,
grinding, etc.
3. Heat from an electric hot plate or a fire directed
against or near a closed container even if the powder
itself is not exposed to the flame.
When smokeless powder burns, a great deal of gas at
high temperature is formed. If the powder is confined,
this gas will create pressure in the surrounding
structure. The rate of gas generation is such, however,
that the pressure can be kept at a low level if
sufficient space is available or if the gas can escape.
In this respect smokeless powder differs from
blasting agents or high explosives such as dynamite or
blasting gelatin, although smokeless powder may contain
chemical ingredients common to some of these products.
High explosives such as dynamite are made to
detonate, that is, to change from solid state to gaseous
state with evolution of intense heat at such a rapid
rate that shock waves are propagated through any medium
in contact with them. Such shock waves exert pressure on
anything they contact, and, as a matter of practical
consideration, it is almost impossible to satisfactorily
vent away the effects of a detonation involving any
appreciable quantity of dynamite.
Smokeless powder differs considerably in its burning
characteristics from common "black powder."
Black powder burns essentially at the same rate out in
the open (unconfined) as when in a gun.
When ignited in an unconfined state, smokeless powder
burns inefficiently with an orange colored flame. It
produces a considerable amount of light brown noxious
smelling smoke. It leaves a residue of ash and partially
burned powder. THE FLAME IS HOT ENOUGH TO CAUSE
SEVERE BURNS.
The opposite is true when it burns under pressure as
in a cartridge fired in a gun. Then it produces very
little smoke, a small glow, and leaves very little or no
residue. The burning rate of smokeless powder increases
with increased pressure.
If burning smokeless powder is confined, gas pressure
will rise and eventually can cause the container to
burst. Under such circumstances, the bursting of a
strong container creates effects similar to an
explosion.
For this reason, the Department of Transportation
(formerly Interstate Commerce Commission) sets
specifications for shipping containers for propellants
and requires tests of loaded containers--under actual
fire conditions--before approving them for use.
When smokeless powder in D.O.T approved containers is
ignited during such tests, container seams split open or
lids pop off--to release gases and powder from
confinement at low pressure.
