Changes: Plastic explosive

Revision as of 00:56, 28 August 2019

"Plastique" redirects here. For other uses, see Plastique (disambiguation).

Eod2 — C-4 plastic explosive (the off-white rectangular blocks) being used to destroy unexploded artillery components.

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]

Plastic explosives are especially suited for explosive demolition. Common plastic explosives include Semtex and C-4.

Usage

Plastic explosives are especially suited for explosive demolition of obstacles and fortifications by engineers and combat engineers 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.

An early use of plastic explosives was in the warhead of the British Armoured Vehicle Royal Engineers's (AVRE)'s Petard demolition mortar, used to destroy concrete fortifications encountered during Operation Overlord (D-Day). The original use of Nobel 808 supplied by the SOE was for sabotage of German installations and railways in Occupied Europe.^{[citation needed]}

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 application. A common commercial use of plastic explosives is for shock hardening high manganese percentage steel,^[2] a material typically used for train rail components and earth digging implements.

Some terrorist groups have used plastic explosives. In October 2000, al-Qa'ida used C-4 to attack the USS Cole, killing 17 sailors^[3] In 1996, terrorists used C-4 to blow up the Khobar Towers U.S. military housing complex in Saudi Arabia.^[4]

History

The first plastic explosive was gelignite, invented by Alfred Nobel in 1875.

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.^[5] 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 nor why it may be advantageous, as he only explains why his plastic explosive is superior to others of that type.^{[citation needed]}

One of the simplest plastic explosives was Nobel's Explosive No. 808, 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) for sabotage missions. It is also the explosive used in HESH anti-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.^{[citation needed]}

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 plasticisers 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 to the French Resistance and were therefore labelled in French, as Explosif Plastique. It is still referred to by this name in France and also by some Americans.

C3 was effective but proved to be too brittle in cold weather. In the 1960s it was replaced by C-4, also using RDX but with polyisobutylene and di(2-ethylhexyl)sebacate as the binder and plasticizer.^{[citation needed]}

List of plastic explosives

Austria: KAUERIT
Czech Republic: Semtex-H (orange colored), Semtex 1A (red colored), NP10 (black colored)
Finland: PENO
France: PE4, PLASTRITE (FORMEX P 1)
Germany: Sprengkörper DM12, (Sprengmasse, formbar)
Netherlands: Knaverit S1 (light orange colored)
Greece: C3, C4
Israel: Semtex
Italy: T-4 Plastico
Norway: NM91(HMX), C4
Poland: PMW, NITROLIT
Russia: PVV-5A Plastic Explosive
Slovakia: CHEMEX (C4), TVAREX 4A, Danubit
Sweden: Sprängdeg m/46
Switzerland: PLASTITE produced by SSE
USA: C-4 (Pure White)(Composition C-4)
United Kingdom: PE7 (off-white colored),^[6] DEMEX (sheet explosive)
Yugoslavia/Serbia: PP–01 (C4)

References

↑ Cooper, Paul W. (1996). "Chapter 4: Use forms of explosives". Explosives Engineering. Wiley-VCH. pp. 51–66. ISBN 0-471-18636-8.
↑ Explosive Hardening, PA&E, Inc.
↑ Whitaker, Brian (21 August 2003). "Bomb type and tactics point to al-Qaida". The Guardian. London: Guardian Media Group. http://www.guardian.co.uk/world/2003/aug/21/alqaida.iraq. Retrieved July 11, 2009.
↑ https://www.fas.org/irp/news/2001/06/khobar.html
↑ US Patent # 1092758
↑ http://www.eurenco.com/content/explosives/demolition-breaching/new-generation/explosive-blocks/f

All or a portion of this article consists of text from Wikipedia, and is therefore Creative Commons Licensed under GFDL.
The original article can be found at Plastic explosive and the edit history here.

[Cooper-1] Cooper, Paul W. (1996). "Chapter 4: Use forms of explosives". Explosives Engineering. Wiley-VCH. pp. 51–66. ISBN 0-471-18636-8.

[2] Explosive Hardening, PA&E, Inc.

[Guardian_Bomb_Type-3] Whitaker, Brian (21 August 2003). "Bomb type and tactics point to al-Qaida". The Guardian. London: Guardian Media Group. http://www.guardian.co.uk/world/2003/aug/21/alqaida.iraq. Retrieved July 11, 2009.

[4] ttps://www.fas.org/irp/news/2001/06/khobar.html

[5] US Patent # 1092758

[6] ttp://www.eurenco.com/content/explosives/demolition-breaching/new-generation/explosive-blocks/f

[1]

[2]

[3]

[4]

[5]

[6]

@@ Line 20: / Line 20: @@
 Plastic explosives are especially suited for explosive demolition of obstacles and [[fortification]]s by engineers and [[combat engineer]]s 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.
-An early use of plastic explosives was in the warhead of the British [[Armoured Vehicle Royal Engineers]]'s (AVRE)'s Petard demolition mortar, used to destroy concrete fortifications encountered during [[Operation Overlord]] (D-Day). The original use of Nobel 808 supplied by the SOE was for sabotage of German installations and railways in [[German-occupied Europe|Occupied Europe]].{{citation needed|date=November 2013}}
+An early use of plastic explosives was in the warhead of the British [[Armoured Vehicle Royal Engineers]]'s (AVRE)'s Petard demolition mortar, used to destroy concrete fortifications encountered during [[Operation Overlord]] (D-Day). The original use of Nobel 808 supplied by the SOE was for sabotage of German installations and railways in [[German-occupied Europe|Occupied Europe]].{{citation needed|date=November 2014}}
 They are generally not used for ordinary [[Rock blasting|blasting]] as they tend to be significantly more expensive than other materials that perform just as well in this application. A common commercial use of plastic explosives is for [[shock hardening]] high manganese percentage steel,<ref>[http://www.pacaero.com/products/explosive-hardening.htm ''Explosive Hardening''], PA&E, Inc.</ref> a material typically used for train rail components and earth digging implements.
@@ Line 29: / Line 29: @@
 The first plastic explosive was [[gelignite]], invented by [[Alfred Nobel]] in 1875.
-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 [[aromaticity|aromatics]], [[collodion]], and oxidising inorganic salts.<ref>US Patent # 1092758</ref> 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 nor why it may be advantageous, as he only explains why his plastic explosive is superior to others of that type.{{Citation needed|date=October 2011}}
+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 [[aromaticity|aromatics]], [[collodion]], and oxidising inorganic salts.<ref>US Patent # 1092758</ref> 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 nor why it may be advantageous, as he only explains why his plastic explosive is superior to others of that type.{{Citation needed|date=October 2014}}
-One of the simplest plastic explosives was Nobel's Explosive No. 808, 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) for sabotage missions. It is also the explosive used in [[High explosive squash head|HESH]] [[anti-tank]] shells and was an essential factor in the devising of the [[Gammon bomb|Gammon grenade]]. Captured SOE-supplied Nobel 808 was the explosive used in the failed [[20 July plot]] assassination attempt on [[Adolf Hitler]] in 1944.{{Citation needed|date=October 2011}}
+One of the simplest plastic explosives was Nobel's Explosive No. 808, 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) for sabotage missions. It is also the explosive used in [[High explosive squash head|HESH]] [[anti-tank]] shells and was an essential factor in the devising of the [[Gammon bomb|Gammon grenade]]. Captured SOE-supplied Nobel 808 was the explosive used in the failed [[20 July plot]] assassination attempt on [[Adolf Hitler]] in 1944.{{Citation needed|date=October 2014}}
 During and after World War II a number of new [[RDX]]-based explosives were developed, including [[Composition C|Compositions C, C2, and eventually C3]]. Together with RDX these incorporate various plasticisers 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 to the [[French Resistance]] and were therefore labelled in French, as ''Explosif Plastique''. It is still referred to by this name in France and also by some Americans.
-C3 was effective but proved to be too brittle in cold weather. In the 1960s it was replaced by C-4, also using RDX but with [[polyisobutylene]] and di(2-ethylhexyl)sebacate as the binder and [[plasticizer]]. {{Citation needed|date=October 2011}}
+C3 was effective but proved to be too brittle in cold weather. In the 1960s it was replaced by C-4, also using RDX but with [[polyisobutylene]] and di(2-ethylhexyl)sebacate as the binder and [[plasticizer]]. {{Citation needed|date=October 2014}}
 ==List of plastic explosives==