M55 (rocket)
The M55 rocket was a chemical weapon developed by the United States in the 1950s. The United States Army produced both Sarin and VX unitary warheads for the M55.
History
In 1951 the US Army Chemical Corps and Ordnance Corps initiated a joint program to develop a 115mm chemical rocket. The US Army Ordnance Corps designed the 115mm T238 and launcher in 1957 to provide the army a means to attack large area targets with chemical agents. Artillery and mortars are for small area targets; and due to different spin stabilities, warheads intended for explosives are not ideal for chemical delivery. The 115mm rocket was subsequently accepted as the M55 rocket with M91 launcher. Produced from 1959–1965,[1] the M55s were manufactured at Newport Army Ammunition Plant and tested at Aberdeen Proving Ground.[2] The Army produced unitary warheads filled with Sarin (GB) and VX nerve agents for the M55.[3]
Disposal and storage programs
Storage
During the 1960s the Army stored many M55s at Black Hills Army Depot.[2] The M55 was also stored at the Rocky Mountain Arsenal and in Okinawa, Japan.[2] The rockets in Japan were moved to Johnston Atoll during Operation Red Hat where they were destroyed during the 1990s.
Disposal issues
Disposal operations for the M55 are made more difficult because of the rocket's design.[1] The rocket propellant was a double base composition nitroglycerin (NG) and nitrocellulose (NC) propellant.[2] Besides the NG and NC, M28 contains 2-nitrodiphenylamine (NDPA) as a stabilizer.[4] The rocket propellant cannot be removed from the warhead without cutting open the rocket.[5]
The propellant itself presents a hazard, because it becomes unstable as it ages.[6] Specifically, the danger of autoignition is present as the stabilizer ages and becomes depleted.[7] The U.S. National Research Council and other sources called the M55 the most dangerous weapon in the American chemical arsenal because of this and other hazards.[6][7]
Another danger is agent leakage. Army reports have indicated that nerve agent GB can corrode the metal casings of the munitions over time.[1] As Sarin decomposes it forms acids which can corrode the aluminum casings found around the agent in the M55.[6][8] M55 rockets containing GB have accounted for the majority of leaking American chemical weapons.[6] In mid-2002, over 4,000 munitions in the U.S. chemical stockpile were found to be leaking agent; of that number 2,102 were Sarin-containing M55s.[8]
Disposal completion
The United States signed the Chemical Weapons Convention in 1993, which obligated it to destroy all chemical weapons by an extended deadline of April 2012. The U.S. missed the deadline, but completed the destruction of all declared chemical weapons on July 7, 2023 at Blue Grass Army Depot in Kentucky.[9][10][11] The final chemical weapon to be destroyed was a sarin nerve agent-filled M55 rocket.[12]
Specifications
The M55 is 78 inches (2,000 mm) long and 4.44 inches (113 mm) in diameter. The 57-pound (26 kg) weapons can hold warheads filled with about 10 pounds (4.5 kg) of GB or VX.[2] The warhead comprises about 15 pounds (6.8 kg) total, and consists of several components. The M34 and M36 Burster utilize composition B or tetrytol and total about 3 pounds (1.4 kg) of the total weapon weight. The agent, as stated, comprises about ten pounds (4.5 kilograms) of the weight with the rest lying in the casing and M417 fuze.[2]
See also
- Binary chemical weapons
- Anniston Chemical Activity
- Johnston Atoll Chemical Agent Disposal System
- List of U.S. Army Rocket Launchers By Model Number (M91)
Notes
- ^ a b c Noyes, Robert. Chemical Weapons Destruction and Explosive Waste: Unexploded Ordnance Remediation, (Google Books), William Andrew Inc., 1996, page 32, (ISBN 0815514069).
- ^ a b c d e f "M55 rocket", Federation of American Scientists, updated June 15, 2000, accessed November 8, 2008.
- ^ Croddy, Eric and Wirtz, James J. Weapons of Mass Destruction: An Encyclopedia of Worldwide Policy, Technology, and History, (Google Books), ABC-CLIO, 2005, p. 42, (ISBN 1851094903), accessed November 8, 2008.
- ^ The propellant is known by the military nomenclature M28 propellant. See: Effects of Degraded Agent and Munitions Anomalies on Chemical Stockpile Disposal Operations.
- ^ Committee on Review and Evaluation of the Army Chemical Stockpile Disposal Program, U.S. National Research Council. Review of Systematization of the Tooele Chemical Agent Disposal Facility, (Google Books), National Academies Press, 1996, p. 86, (ISBN 0309054869).
- ^ a b c d Langford, Roland E. Introduction to Weapons of Mass Destruction, (Google Books), Wiley-IEEE, 2004, page 282, (ISBN 0471465607).
- ^ a b Peterson, Carl R., U.S. National Research Council, et al. Recommendations for the Disposal of Chemical Agents and Munitions, National Academies Press, 1994, (Google Books), p. 46-48, (ISBN 0309050464).
- ^ a b Committee on Review of Army Planning for the Disposal of M55 Rockets at the Anniston Chemical Agent Disposal Facility, U.S. National Research Council, Assessment of Processing Gelled GB M55 Rockets at Anniston, (Google Books), National Academies Press, 2003, page 11, (ISBN 0309089972).
- ^ "U.S. destroys last of its declared chemical weapons, closing a deadly chapter dating to World War I". AP News. 2023-07-07. Retrieved 2023-07-08.
- ^ "US Completes Chemical Weapons Stockpile Destruction Operations". U.S. Department of Defense. Retrieved 2023-07-08.
- ^ "OPCW confirms: All declared chemical weapons stockpiles verified as irreversibly destroyed". OPCW. Retrieved 2023-07-08.
- ^ "U.S. destroys last of its declared chemical weapons". CBS. CBS. Retrieved 11 July 2023.
References
- Committee on Review and Evaluation of the Army Chemical Stockpile Disposal Program, Committee on Review and Evaluation of the Army Chemical Stockpile Disposal Program, U.S. National Research Council. Effects of Degraded Agent and Munitions Anomalies on Chemical Stockpile Disposal Operations, (Google Books), National Academies Press, 2004, p. 55, (ISBN 0309089182)
Further reading
- Puro, Toivo E. Nerve Gas, (Google Books), Trafford Publishing, 2006, p. 112, (ISBN 1412072964).[self-published source]