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RDX

IUPAC name

1,3,5-Trinitroperhydro-1,3,5-triazine

Other names

RDX1,3,5-Trinitro-1,3,5-triazacyclohexane

Identifiers

CAS number

[121-82-4]

PubChem 8490

UN number 0072, 0391, 0483

SMILES  [show]

Properties

Molar mass 222.12 g/mol

Appearance Colorless crystals

Density 1.82 g/cm3

Melting point 205.5 °C, 479 K,

402 °F

Boiling point 234 °C, 507 K,

453 °F

Explosive data

Shock sensitivity

Low

Friction sensitivity

Low

Explosive velocity

8,750 metres per second

RE factor 1.60

Except where noted otherwise, data are given for

materials in their standard state(at 25   °C, 100   kPa) Infobox references

Cyclotrimethylenetrinitramine, also known as RDX, cyclonite, hexogen, and T4, is an explosive nitroamine widely used in military and industrial applications. Nomenclature variants include cyclotrimethylene-trinitramine and cyclotrimethylene trinitramine.

In its pure, synthesized state RDX is a white, crystalline solid. As an explosive it is usually used in mixtures with other explosives and plasticizers, phlegmatizers or desensitizers. It is stable in storage and is considered one of the most powerful and brisant of the military high explosives.[1]

RDX forms the base for a number of common military explosives: Composition A (wax-coated, granular explosive consisting of RDX and plasticizing wax), composition A5 (mixed with 1.5% stearic acid), Composition B (castable mixtures of RDX and TNT), Composition C (a plastic demolition explosive consisting of RDX, other explosives, and plasticizers), Composition D, HBX (castable mixtures of RDX, TNT, powdered aluminium, and D-2 wax with calcium chloride), H-6, and C-4.

RDX is also used as a major component of many plastic bonded explosives used in nuclear weapons.

Contents

[hide] 1 Properties 2 History

o 2.1 UK and Canadian production o 2.2 US - Bachmann process o 2.3 Use o 2.4 Names

3 References o 3.1 Notes o 3.2 Bibliography

4 External links

[edit] Properties

The velocity of detonation of RDX at a density of 1.76 g/cm³ is 8,750 meters per second.

It is a colourless solid, of maximum theoretical density 1.82 g/cm³. It is obtained by reacting concentrated nitric acid with hexamine.

(CH2)6N4 + 4HNO3 → (CH2-N-NO2)3 + 3HCHO + NH4+ + NO3

-

It is a heterocycle and has the molecular shape of a ring. It starts to decompose at about 170 °C and melts at 204 °C. Its structural formula is: hexahydro-1,3,5-trinitro-1,3,5-triazine or (CH2-N-NO2)3.

At room temperature, it is very stable. It burns rather than explodes and detonates only with a detonator, being unaffected even by small arms fire. It is less sensitive than pentaerythritol tetranitrate (PETN). However, it is very sensitive when crystallized, below −4 °C.

Under normal conditions, RDX has a figure of insensitivity of exactly 80 (as this is the reference point).

RDX sublimates in vacuum, which limits its use in pyrotechnic fasteners for spacecraft.

[edit] History

The discovery of RDX dates from 1899 when Georg Friedrich Henning obtained a German patent for its manufacture, by nitrating hexamethylenetetramine nitrate.[2] In his first patent, he cited its use as a medicine.[2] Its explosive properties were not discovered until 1920s when G. C. V. Herz obtained a British patent in 1921 and a U.S. patent in

1922, for its manufacture by nitrating hexamethylenetetramine.[2] Later in the 1920s RDX was produced by the direct nitration of hexamine.

RDX was used by both sides in World War II.

[edit] UK and Canadian production

In the United Kingdom RDX was manufactured in pilot plants at the RGPF Waltham Abbey in 1938 and at the Research Department at the Royal Arsenal, Woolwich.[3] In 1939 a twin-unit industrial-scale plant was designed to be installed at a new 700 acre (283 ha) site, ROF Bridgwater, away from London; and production of RDX started at Bridgwater in 1941.[3] The United Kingdom attempted to be self-sufficient in the early stages of the war, and at this time the USA was still a neutral country; Canada, a member of the British Commonwealth, was looked upon to supply ammunition and explosives, including RDX.

A slightly different method of production, but still using hexamine, was found and used in Canada, possibly at the McGill University Department of Chemistry. Urbanski[2] provides details of five methods of production.

[edit] US - Bachmann process

Near the beginning of World War II the US Government turned to Tennessee Eastman Company (TEC), Kingsport, Tennessee, US, a leading manufacturer of acetic anhydride, to develop a continuous-flow manufacturing process for RDX.[citation needed] RDX was crucial to the war effort and the current batch-production process could not keep up. The US began research to safely make large quantities of RDX. Werner Emmanuel Bachmann of the University of Michigan developed the “combination process” which required large quantities of acetic anhydride instead of nitric acid in the old British “Woolwich process”. In February 1942, TEC built the Wexler Bend pilot plant and began producing small amounts of RDX. This led to the US Government authorizing TEC to design and build Holston Ordnance Works (H.O.W.) in June 1942. By April 1943, RDX was being manufactured there.[4] The US Bachmann process for RDX was found to be richer in HMX than the United Kingdom's RDX. This later led to a RDX plant using the Bachmann process being set up at ROF Bridgwater in 1955, to produce both RDX and HMX.

[edit] Use

This section needs additional citations for verification.Please help improve this article by adding reliable references. Unsourced material may be challenged and removed. (September 2008)

RDX was widely used during World War II, often in explosive mixtures with TNT such as Torpex. RDX was used in one of the first plastic explosives. RDX is believed to have been used in many bomb plots including terrorist plots. It was said to have been used in

the Bombay (Mumbai) serial bomb blasts of 12 March 1993 in which more than 300 people were killed and about 1,500 injured. Again, on 11 July 2006, a series of powerful explosions took place on seven suburban railway trains on Mumbai's Western Railway line killing 209 and injuring over 700. The use of RDX by the Islamic terrorist outfit Lashkar-e-Toiba in this incident was subsequently confirmed by India's state investigating agencies. It was recently used in the serial Jaipur blasts, as well as in the Islamabad Marriott Hotel bomb blast of 20th September 2008 in which more than 50 people were killed and more than 300 people were injured.

Outside of military applications, RDX is also used in controlled demolition to implode structures. The demolition of the Jamestown Bridge in the U.S. state of Rhode Island is one example where RDX shaped charges were used to remove the span.

[edit] Names

There are many explanations for the name RDX, including (but not limited to) Royal Demolition eXplosive, Research Department (composition) X and Research Department eXplosive. Research Department composition X is most likely correct.[3] In the United Kingdom, new military explosives were given an identification number preceded by the letters 'RD' indicating 'Research Department No.'.[3] For some reason, this explosive was unable to be given a number. Instead, the letter 'X' was appended to indicate 'unknown' with the intention of adding the number later.

The first public reference in the United Kingdom to the name RDX, or R.D.X to use the official title, appears in 1948; its authors were the Managing Chemist, ROF Bridgwater, the Chemical Research and Development Department, Woolwich, and the Director of Royal Ordnance Factories, Explosives; it is referred to as simply RDX.[5]

Davis, writing in the USA in 1943, stated it was generally known in the USA as cyclonite; the Germans called it Hexogen, the Italians T4.[6]

[edit] References

[edit] Notes

1. ̂ TM 9-1300-214. US Army. 2. ^ a b c d Urbanski (1967) Volume 3 3. ^ a b c d Cocroft, Wayne D.(2000). Dangerous Energy: The archaeology of gunpowder

and military explosives manufacture. Swindon: [[English Heritage. ISBN 1-85074-718-0. 4. ̂ WE Bachmann, JC Sheehan (1949). "A New Method of Preparing the High Explosive

RDX1". Journal of the American Chemical Society, 1949 (5): 1842–1845. 5. ̂ Simmons (1948), Part II and III. 6. ̂ Davis (1943) Volume II.

[edit] Bibliography

Cooper, Paul W. (1996). Explosives Engineering. New York: Wiley-VCH. ISBN 0-471-18636-8.

Davis, Tenney L. (1943). The Chemistry of Powder and Explosives, Volume II. New York: John Wiley & Sons Inc.

Urbanski, Tadeusz (1967). Chemistry and Technology of Explosives, Vol. III. Warszawa: Polish Scientific Publishers.

Meyer, Rudolf (1987). Explosives, 3rd Edition. VCH Publishers. ISBN 0-89573-600-4.

Simmons, W.H., Forster, A. and Bowden, R.C., (1948). "The Manufacture of R.D.X. in Great Britain: Part II - Raw Materials and Ancillary Processes", in: The Industrial Chemist, Pages 530 - 545, August 1948.

Simmons, W.H., Forster, A. and Bowden, R.C., (1948). "The Manufacture of R.D.X. in Great Britain: Part III - Production of the Explosive", in: The Industrial Chemist, Pages 593 - 601, September 1948.

Henning, German Patent 104,280 (1899).

[edit] External links

Prva Iskra Namenska AD (Serbia) ADI Limited (Australia)

Retrieved from "http://en.wikipedia.org/wiki/RDX"Categories: Explosives | Nitroamines | TriazinesHidden categories: All articles with unsourced statements | Articles with unsourced statements since February 2008 | Articles needing additional references from September 2008

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