MGM-29 Sergeant explained

MGM-29 Sergeant
Origin:United States
Type:Tactical ballistic missile
Is Explosive:yes
Is Missile:yes
Service:1962–1979
Used By:United States Army
German Army
Designer:Jet Propulsion Laboratory
Design Date:1955
Manufacturer:Sperry Utah
Number:~500
Weight:10100lb
Length:34feet
Diameter:31inches
Filling:W52 (M65) nuclear
Engine:Thiokol XM100
Engine Power:200kN
Vehicle Range:75nmi
Guidance:Inertial
Propellant:Solid fuel
Boost:34 sec

The MGM-29 Sergeant was an American short-range, solid fuel, surface-to-surface missile developed by the Jet Propulsion Laboratory. The missiles were built by Sperry Utah Company. The Sergeant was the third and last in a series of JPL rockets for the US Army whose names correspond to the progression in Army enlisted ranks, starting with Private and Corporal.

Development

The Sergeant was originated during 1948 at JPL. Due to the large workload of the Corporal program rocket motor development for the Sergeant was transferred to the Redstone Division of the Thiokol Corporation.[1] Due to the failure of the Sergeant program to develop rapidly the early Sergeant was terminated in April 1951.[2] Another Army missile program, the Hermes program had developed the Hermes A2 another solid fueled missile.[3] The Hermes RV-A-10 (A2) was successful but not pursued with the motor serving as the inspiration for future solid rocket motors.[2] JPL cautioned against making Sergeant a "crash" program as with Corporal.[4]

Sergeant missile development began January 1955.[5] There were three basic steps planned: feasibility demonstration in 1955–1957, experimental development in 1958 and 1959, followed by final engineering in 1960 and 1961.[6] The rocket motor was designed by JPL and built by Thiokol. Picatinny Arsenal was to supply the warhead and adapter.[7] Ground Support equipment and vehicles were to be the responsibility of JPL.[8] By fall 1956 it was decided to defer procurement of the Corporal III to development of the much more practical Sergeant.[9] Flight tests began in early 1956 resulting in significant design changes,[10] By July 1961 the Sergeant weapon system had numerous deficiencies including check out, repair ease, standby readiness, reliability and low temperature storage limits. Sergeant was to be ready on time but fell miserably short of meeting the goal of being the weapon originally envisioned.[11] When compared to its predecessor, the Sergeant required less than of the ground support equipment, and could be fired within minutes rather than hours after arriving at the firing location. Sergeant was relatively simple to operate and maintain.[12] The Sergeant was to carry the W52 (M65) nuclear warhead.[13] The Sergeant had been considered for deployment with high explosive, fragmentation, biological and chemical warheads. A biological warhead, the M210 and a chemical warhead, the M212 were approved but never procured.[14]

In service

Activated by the US Army in 1962 to replace the MGM-5 Corporal, it was deployed in Europe and South Korea by 1963, and to German units by 1964.[15]

The Sergeant weapon system was to be replaced by the MGM-52 Lance in the early 1970s but delays in the Lance caused it to remain in service.[16] The last US Army battalion was deactivated in 1977.[17] Sergeant Missile Systems were usually assigned to the field army with the mission of "general support to a corps."[18]

Operation of the Sergeant was recognized to be an interim stage in the development of battlefield missiles. It avoided the Corporal's liquid-fuel-handling drawbacks, but still requiring extensive setup and checkout before launch, together with a train of semi-trailer support vehicles.[19] More advanced missiles, such as the contemporary Blue Water and later Lance, would reduce setup time.

The Sergeant had a takeoff thrust of, a takeoff weight of, a diameter of, a length of and a fin span of . The Sergeant missile had a minimum range of 25miles, and a maximum range of 84miles.Thiokol developed the Sergeant rocket motors, and the Castor rocket stages derived from them, at the Redstone Arsenal near Huntsville, Alabama.[20]

Derivatives

The Castor rocket stage, a Sergeant derivative, was used as the second stage of the Scout satellite launcher. Clusters of Sergeant-derived rockets (the "Baby Sergeant") were used in the second and third stages of the Jupiter-C sounding rocket, as well as in the second, third, and fourth stages of the Juno I and Juno II launch vehicles, the former of which launched the first United States satellite, Explorer 1.

Operators

[21] German Army

[22] United States Army

External links

Notes and References

  1. Cagle, Mary T., History of the Sergeant Weapon System, p 11, U.S. Army Missile Command, Redstone Arsenal, Alabama, 1972
  2. Cagle, Mary T., History of the Sergeant Weapon System, p 15, U.S. Army Missile Command, Redstone Arsenal, Alabama, 1972
  3. Cagle, Mary T., History of the Sergeant Weapon System, p 14, U.S. Army Missile Command, Redstone Arsenal, Alabama, 1972
  4. Cagle, Mary T., History of the Sergeant Weapon System, p 32, U.S. Army Missile Command, Redstone Arsenal, Alabama, 1972
  5. Cagle, Mary T., History of the Sergeant Weapon System, p 36, U.S. Army Missile Command, Redstone Arsenal, Alabama, 1972
  6. Cagle, Mary T., History of the Sergeant Weapon System, p 97, U.S. Army Missile Command, Redstone Arsenal, Alabama, 1972
  7. Cagle, Mary T., History of the Sergeant Weapon System, p 113-117, U.S. Army Missile Command, Redstone Arsenal, Alabama, 1972
  8. Cagle, Mary T., History of the Sergeant Weapon System, p 120, U.S. Army Missile Command, Redstone Arsenal, Alabama, 1972
  9. Cagle, Mary T., History of the Sergeant Weapon System, p 130, U.S. Army Missile Command, Redstone Arsenal, Alabama, 1972
  10. Cagle, Mary T., History of the Sergeant Weapon System, p 109-111, U.S. Army Missile Command, Redstone Arsenal, Alabama, 1972
  11. Cagle, Mary T., History of the Sergeant Weapon System, p 199, U.S. Army Missile Command, Redstone Arsenal, Alabama, 1972
  12. Cagle, Mary T., History of the Sergeant Weapon System, p 202, U.S. Army Missile Command, Redstone Arsenal, Alabama, 1972
  13. Hansen, Chuck, “The Swords of Armageddon U.S. Nuclear Weapons Development since 1945,” Volume VII, p 125-126, 1995
  14. Cagle, Mary T., History of the Sergeant Weapon System, p 234, U.S. Army Missile Command, Redstone Arsenal, Alabama, 1972
  15. Cagle, Mary T., History of the Sergeant Weapon System, p 216, U.S. Army Missile Command, Redstone Arsenal, Alabama, 1972
  16. Cagle, Mary T., History of the Sergeant Weapon System, p 244, U.S. Army Missile Command, Redstone Arsenal, Alabama, 1972
  17. Kennedy . Gregory P..
  18. Web site: Weapons of the Field Artillery (1965). https://ghostarchive.org/varchive/youtube/20211212/7o1MloQoRAQ. 2021-12-12 . live. US Army. 11 May 2013.
  19. Sergeant electrodynamics . . 23 April 1964 . 643–644.
  20. Web site: Thiokol . Box Elder County, Utah . dead . https://web.archive.org/web/20090406191826/http://www.boxelder.org/tourism/visitor/thiokol/ . 6 April 2009 .
  21. Web site: USAREUR Charts - SERGEANT Missile.
  22. Web site: USAREUR Charts - SERGEANT Missile.
  23. Web site: Foreign Relations of the United States, 1969–1976, Volume E–12, Documents on East and Southeast Asia, 1973–1976 - Office of the Historian. history.state.gov.