UGM-89 Perseus explained

Is Missile:yes
UGM-89A Perseus
Origin:United States
Type:Standoff Anti-Submarine & Anti-ship
Used By:United States Navy
Manufacturer:Lockheed Missiles and Space Company[1]
Production Date:Cancelled, 1973[2] [3] [4] [5]
Engine:Solid propellant rocket motor[6]
Weight:6000lb
Length:25feet
Diameter:30inches
Vehicle Range:30nmi
Filling:Homing torpedo
Launch Platform:Submarine

The UGM-89 Perseus was a proposed U.S. Navy submarine-launched anti-ship (AShM) and anti-submarine (ASW) cruise missile that was developed under the Submarine Tactical Missile (STAM) project, which was also referred to as the Submarine Anti-ship Weapon System (STAWS). This missile system was to be the centerpiece for a proposed third-generation nuclear-powered cruise missile submarine championed by then-Vice Admiral Hyman G. Rickover, the influential but controversial head of the Navy's nuclear propulsion program.[3] [4]

Development

The Navy issued the STAM requirement in March 1969, and the Lockheed Missiles and Space Company (LMSC) responded to this proposal, which included the formation of an undersea warfare program organization in Sunnyvale, California.[1] [2] [5] It is unclear if this was to be an entirely new organization or part of the Lockheed Underwater Missile Facility (LUMF) which had been responsible for the design and development of the Polaris, Poseidon, and Trident submarine-launched strategic ballistic missile (SLBM) systems for the U.S. Navy.[7] In February 1970, the missile designation ZUGM-89A Perseus was reserved for the U.S. Navy presumably for the STAM/STAWS missile development program.[5] [8]

Design overview

Because of its large size, the UGM-89 Perseus missile could not be launched from the Navy's standard 21inches submarine torpedo tubes, but would be carried in a vertical launching system (VLS) housed within the proposed cruise missile submarine's hull. Twenty VLS tubes would be located in a separate compartment situated between the submarine's operations and reactor compartments.[3] [4] The individual launcher tube would be 30inchesx300inchesin (xin) in dimension.[4] The missile warhead payload would be a new 21-inch (533 mm) diameter homing torpedo to be developed concurrently with the UGM-89 Perseus missile.[2] [5]

By 1971, the STAM project had evolved into a long-range Advanced Cruise Missile (ACM) program capable of undertaking a variety of combat missions, including strategic nuclear strike (see table below).[4] The proposed ACM versions of the UGM-89 Perseus STAM would use a slightly enlarged launch tube (40x, and 1979 would have been the date for its initial operational capability (IOC).[4]

1971 ACM AlternativesHigh-Subsonic Anti-ship/AShWSupersonic Anti-ship/AShWStrategic Nuclear Strike
Dimensions34 x 336 inches (86.36 x 853.4 cm)34 x 340 inches (86.36 x 863.6 cm)34 x 336 inches (86.36 x 853.4 cm)
Overall launch weight8,600 lbs. (3,900.9 kg)11,420 lbs. (5,180.0 kg)9,950 lbs. (4,13.2 kg)
Without booster6,183 lbs. (2,804.6 kg)7.519 lbs. (3,410.6 kg)———
Warhead1,000 lb. armour piercing (453.6 kg)700 lb. (317.6 kg)260 lb. (117.9 kg)
SpeedMach 0.8 (609 mph or 980 km/h)Mach 2.0 (1,522 mph or 2450 km/h)Mach 0.8 (609 mph or 980 km/h)
Range400 nm (740.8 km)400 nm (740.8 km)1800 nm (3,333.6 km)

Cancellation

The UGM-89 Perseus missile system was cancelled in 1973, and its proposed nuclear-powered cruise missile submarine platform was officially cancelled in 1974, with the Navy deciding to build the less expensive Los Angeles-class nuclear-powered attack submarines, which would subsequently carry both the Harpoon anti-ship missile and Tomahawk cruise missiles.[2] [3] [4] [5] The ASW component of the UGM-89 Perseus would later serve as the baseline for the proposed Sea Lance stand-off ASW missile system, which would also be cancelled.[4] [6]

See also

References

External links

Notes and References

  1. Web site: Lockheed's Tactical Undersea Missile . . 911 . 29 May 1969 . 2009-08-26.
  2. Web site: UGM-89 Perseus . Directory of US Military Rockets and Missiles . 24 October 2002 . 2009-08-26.
  3. Book: Polmar, Norman . Cold War Submarines: The Design and Construction of U.S. and Soviet Submarines . J.K. Moore . 2004 . Potomac Books, Inc. . . 1-57488-530-8 . 274–275, 376n40 . 2009-08-26 . 2007-10-14 . https://web.archive.org/web/20071014044558/http://www.potomacbooksinc.com/Books/BookDetail.aspx?productID=66790 . dead .
  4. Book: Friedman, Norman . U.S. Submarines Since 1945: An Illustrated Design History . 1994 . . . 1-55750-260-9 . 270–271 . 2009-08-26.
  5. Encyclopedia: UGM-89 Perseus . https://web.archive.org/web/20030904141913/http://astronautix.com/lvs/perseus.htm . dead . September 4, 2003 . Encyclopedia Astronautica . 2009-08-26.
  6. Web site: Boeing RUM/UUM-125 Sea Lance . Directory of US Military Rockets and Missiles . 28 May 2002 . 2009-08-26.
  7. Book: Francillon, René J. . Lockheed Aircraft since 1913 . 1988 . . . 0-87021-897-2 . Appendix D, p. 558–564 .
  8. Web site: Missile Design Series . Military . GlobalSecurity.org . 2 March 2009 . 2009-08-26.