Plastic explosive is a soft and hand-moldable solid form of
explosive material. Within the field of
explosives engineering, plastic explosives are also known as putty explosives[1] or blastics.
Plastic explosives are especially suited for explosive
demolition. Common plastic explosives include
Semtex and
C-4. The first manufactured plastic explosive was
gelignite in 1875, invented by
Alfred Nobel.
Usage
Plastic explosives are especially suited for explosive demolition of obstacles and
fortifications by
engineers,
combat engineers and criminals as they can be easily formed into the best shapes for cutting structural members and have a high enough
velocity of detonation and
density for metal cutting work.
They are generally not used for ordinary
blasting as they tend to be significantly more expensive than other materials that perform just as well in this. A common commercial use of plastic explosives is for
shock hardening high
manganese percentage steel, a material typically used for train rail components and earth digging implements.[2]
Reactive armor in tanks uses plastic explosives sandwiched between two plates of steel. Incoming high explosive shaped charge anti-tank rounds pierce the outer steel plate, then detonate the plastic explosive. This disrupts the energy from the incoming round and shields the tank.[3]: 9
History
The first plastic explosive was
gelignite, invented by
Alfred Nobel in 1875.[4] Prior to
World War I, the British explosives chemist Oswald Silberrad obtained British and U.S. patents for a series of plastic explosives called "Nitrols", composed of nitrated
aromatics,
collodion, and oxidising inorganic salts. The language of the patents indicate that at this time, Silberrad saw no need to explain to "those versed in the art" either what he meant by plasticity or why it may be advantageous, as he only explains why his plastic explosive is superior to others of that type.[5]
One of the simplest plastic explosives was Nobel's Explosive No. 808, of the gelignite type, also known as Nobel 808 (often just called Explosive 808 in the
British Armed Forces during the
Second World War), developed by the British company
Nobel Chemicals Ltd well before World War II. It had the appearance of green
plasticine with a distinctive smell of almonds. During World War II it was extensively used by the British
Special Operations Executive (SOE) at
Aston House for sabotage missions.[6] It is also the explosive used in
HESHanti-tank shells and was an essential factor in the devising of the
Gammon grenade. Captured SOE-supplied Nobel 808 was the explosive used in the failed
20 July plot assassination attempt on
Adolf Hitler in 1944.[7]
During and after World War II a number of new
RDX-based explosives were developed, including
Compositions C, C2, and eventually C3. Together with RDX, these incorporate various plasticizers to decrease sensitivity and make the composition plastic. The origin of the obsolete term "plastique" dates back to the Nobel 808 explosive introduced to the U.S. by the British in 1940. The samples of explosive brought to the U.S. by the
Tizard Mission had already been packaged by the SOE ready for dropping via parachute container to the
French Resistance and were therefore labeled in French, as Explosif Plastique. It is still referred to by this name in France and also by some Americans.
The British used a plastic explosive during World War II as a demolition charge. The specific explosive, Composition C, was 88.3% RDX and 11.7% non-oily, non-explosive plasticizer.[8] The material was plastic between 0 and 40 °C (32–104 °F), but was brittle at colder temperatures and gummy at higher temperatures. Composition C was superseded by Composition C2, which used a mixture of 80% RDX and 20% plasticizer. Composition C2 had a wider temperature range at which it remained plastic, from −30 to 52 °C (−22 to 126 °F). Composition C2 was replaced by Composition C3, which was a mixture of 77% RDX and 23% explosive plasticizer.[9]: 8–109 C3 was effective but proved to be too brittle in cold weather and was replaced with C4. There are three classes of C4, with varying amounts of RDX and
polyisobutylene.[9]: 8–111
MOD (Ministry of Defence) explosives: PE2 (sheet explosive, superseded by SX2),[22] PE3A (superseded by PE4),[23] PE4 (pure to off-white slab, block, or stick, superseded by PE7 and PE8 in MOD usage),[24][23][25][26][27][28][29][13] SX2 (sheet explosive, superseded by SX4),[24][25][30][31] PE7 (pure to off-white slab or block, Hexomax variant),[13][14] PE8 (pure to off-white slab or block, current in-service slab charge),[32][33][34] SX4 (sheet explosive),[35] DPX (DPX1 used in L26A1 Bangalore Torpedo Demolition Charge, DPX9 used in SABREX and as a key component of SX4)[36][37][38][35]
Non-MOD explosives: Composition C-4 (M5A1 and M112 charges produced by Mondial Defence Systems),[39] Semtex (Several variants including Razor produced by Mondial Defence Systems, PW4 variant produced by
Chemring)[40])[41][42][43]
United States: Composition C-4 (pure white block or sheet, current in-service charges designated as M112 and M118)[44][45]
^Department of the Navy, Bureau of Ordnance (28 May 1947).
"U.S. Explosive Ordnance, OP1664". maritime.org. San Francisco National Maritime Park Association. p. 5. Retrieved 12 June 2017.