RGM-59 Taurus

Last updated
ZRGM-59A Taurus
USS Worden CG-18 Mark 10 launcher.jpg
A Mk 10 launcher, of the type intended for use by Taurus
Type Surface-to-surface missile
Place of originUnited States
Service history
Used by United States Navy
Production history
Designed1961-1965
Manufacturer Applied Physics Laboratory
No. built0
Specifications
WarheadConventional
Warhead weight1,000 pounds (450 kg)
Operational
range
19 to 58 mi (31 to 93 km)
Guidance
system
Midcourse: Inertial
Terminal: Passive homing

The RGM-59 Taurus was an American project, conducted by the United States Navy, that was intended to develop a surface-to-surface missile for use as a fire support weapon during amphibious landings, replacing heavy-caliber naval guns. Developed during the early 1960s, the project was cancelled before any hardware development was undertaken.

Contents

Design and development

In August 1961, the United States Navy issued a requirement for a new type of surface-to-surface missile, called the Landing Force Support Weapon (LFSW), [1] that was intended to replace the battleship and heavy cruiser force - then being retired - in the role of providing fire support of troops conducting amphibious landings. [2] [3]

The LFSW requirement specified a rocket-powered missile, [3] armed with a conventional warhead, that would have an effective range of at least 34 miles (55 km). [2] The LSFW missile was required to be equally as effective against soft targets as the naval guns and the unguided rockets that it was intended to replace. [2] Studies regarding the guidance system of the LFSW were conducted by the Applied Physics Laboratory, which determined that the ideal solution for the new missile was for it to utilise inertial guidance during the midcourse phase of its flight. [2] [4] Terminal guidance would be provided by a tracking beacon, operated by the troops, or remotely by a DASH drone, or by some variants of the Grumman OV-1 Mohawk, in the battle area. The missile, having locked onto the beacon, would offset from the beacon's position by an amount specified in the beacon signal, thereby striking the target with a high degree of accuracy. [4]

Cancellation and follow-ups

Designated ZRGM-59A Taurus in June 1963, the refined design for the LFSW missile specified that it should be capable of utilising the same launchers as the Terrier surface-to-air missile; [4] the missile's accuracy was projected to be within a range of 30 to 210 yards (27 to 192 m), depending on whether or not the target beacon was operational. [2]

The Taurus' guidance system was intended to begin testing, using modified MGM-29 Sergeant missiles, in 1965; one source states that Lockheed had been selected to develop the missile's airframe. [5] Before any hardware for the project had been constructed, however, the project was cancelled during 1965. [2] With the cancellation of the RGM-59 project, studies turned to a navalised variant of the MGM-52 Lance missile to provide shore landing fire support; in addition, an armed version of the Ryan Firebee drone was proposed to meet the LSFW requirement. [4] Due to funding restrictions, however, nothing would come of these projects as well. [4]

In March 1967, the Naval Weapons Center proposed another LFSW missile system, that was intended to have a secondary role of the destruction of enemy air defenses. [6] Intended for launch from existing guided missile cruisers and destroyers, as well as being carried by ballistic missile submarines, the new missile was intended to use terrain reference guidance, and was expected to have accuracy of 200 yards (180 m). [6] However, this project also came to naught, [6] leaving the role of a U.S. Navy ship-to-shore missile unfilled until the arrival of the BGM-109 Tomahawk during the 1980s. [2]

See also

Related Research Articles

AUM-N-2 Petrel Anti-ship missile

The AUM-N-2 Petrel, also known as Kingfisher C and AUM-2, was an air-to-surface missile produced as part of Project Kingfisher for the United States Navy. Intended for use against enemy surface ships and surfaced submarines, giving aircraft the ability to deliver aerial torpedoes from outside the range of defensive armament, it saw brief operational service in the late 1950s. The project was never considered a high priority by the Navy however, as it was useless against submerged submarines, which were considered the greatest potential threat.

Project Gorgon Missile / test vehicle / target drone

The Gorgon missile family was a series of experimental air-to-air, air-to-surface, and surface-to-surface missiles developed by the United States Navy's Naval Aircraft Modification Unit between 1943 and 1953. The immaturity of the technology involved meant that none of the Gorgon missiles achieved operational service, however they were extensively used in the development of guided missile controls and guidance technologies.

Project Kingfisher Anti-ship missiles

Project Kingfisher was a weapons-development program initiated by the United States Navy during the latter part of World War II. Intended to provide aircraft and surface ships with the ability to deliver torpedoes to targets from outside the range of defensive armament, six different missile concepts were developed; four were selected for full development programs, but only one reached operational service.

LBD Gargoyle Anti-ship missile / guided bomb

The LBD-1 Gargoyle was an American air-to-surface missile developed during World War II by McDonnell Aircraft for the United States Navy. One of the precursors of modern anti-ship missiles, it was extensively used as a test vehicle during the late 1940s.

Brazo Anti-radiation missile

The Brazo missile was an American project, intended to produce an anti-radiation missile for air-to-air use. Developed by Hughes Aircraft and based on the AIM-7 Sparrow air-to-air missile, the Brazo underwent a series of successful test firings; however, the program was terminated at the end of its test program.

KAN Little Joe Surface-to-air missile

The Little Joe, also known by the United States Navy designation KAN, was an early American ship-based, short-range surface-to-air missile, the development of which was initiated in 1945 as a response to the Kamikaze tactics used by the Japanese. Although the missile was successfully tested, the end of World War II removed the requirement for the missile, and the project was abandoned in 1946.

BOAR Air-to-surface missile

The Bombardment Aircraft Rocket, also known as BOAR, the Bureau of Ordnance Aircraft Rocket, and officially as the 30.5-Inch Rocket, Mark 1, Mod 0, was an unguided air-to-surface rocket developed by the United States Navy's Naval Ordnance Test Station during the 1950s. Intended to provide a standoff nuclear capability for carrier-based aircraft, the rocket entered operational service in 1956, remaining in service until 1963.

3.5-Inch Forward Firing Aircraft Rocket Anti-submarine rocket

The 3.5-inch Forward Firing Aircraft Rocket, or 3.5-Inch FFAR, was an American rocket developed during World War II to allow aircraft to attack enemy submarines at range. The rocket proved an operational success, and spawned several improved versions for use against surface and land targets.

RIM-85 was a short-lived project by the United States Navy to develop a surface-to-air missile for the defense of naval vessels. Developed during the late 1960s, the project was cancelled before the start of detailed design work.

RIM-101 was a short-lived project by the United States Navy to develop a surface-to-air missile (SAM) for the defense of naval vessels. Developed during the early 1970s, the project, possibly derived from the RIM-7 Sea Sparrow, was cancelled before the start of detailed design work.

Glomb Glide bomb

Glomb, from "glide bomb", was a project undertaken by the United States Navy during World War II to develop an unmanned aircraft for delivering bombs to high-value, well-protected targets without risk to aircrew. The project proceeded through the war, producing several prototype aircraft, but technical limitations meant no Glombs saw operational service and the program was cancelled at the end of the war.

AGR-14 ZAP Air-to-surface rocket

The AGR-14 ZAP was an air-to-surface unguided rocket developed by the United States Navy in the late 1960s. Intended for use in the suppression of enemy air defenses role, the rocket reached the flight-testing stage before being cancelled.

The ASM-N-5 Gorgon V was an unpowered air-to-surface missile, developed by the Glenn L. Martin Company during the early 1950s for use by the United States Navy as a chemical weapon delivery vehicle. Developed from the earlier PTV-N-2 Gorgon IV test vehicle, the program was cancelled without any Gorgon Vs seeing service.

AAM-N-5 Meteor Air-to-air missile

The AAM-N-5 Meteor was an early American air-to-air missile, developed by the Massachusetts Institute of Technology and Bell Aircraft for the United States Navy. Initially, both air-launched and ship-launched versions were considered. Versions designed for launch from carrier-based aircraft proceeded to the flight testing stage before the project was cancelled.

CTV-N-2 Gorgon IIC Propulsion test vehicle

The CTV-N-2 Gorgon IIC – also designated KGN, KUN, and CTV-2 – was an experimental drone, originally intended as a surface-to-surface missile, developed by the United States Navy near the end of World War II. It was used to test control and homing systems for guided missiles, and was also produced in small numbers as a target drone under the designations TD3N and KD2N.

ASM-N-6 Omar Air-to-surface missile

The ASM-N-6 Omar was a short-range air-to-surface missile developed for and evaluated by the United States Navy in the early 1950s. Intended to use existing unguided rockets as a basis and using a novel guidance system involving optical beam-riding, the program was unable to resolve difficulties with the guidance system and was cancelled without entering service.

SAM-N-8 Zeus Guided anti-aircraft artillery shell

SAM-N-8 Zeus, also known as Zeus I, was a project by the Naval Ordnance Laboratory of the United States Navy to develop a guided anti-aircraft artillery shell for launch from 8-inch (200 mm) guns. Tested in the late 1940s, it was overtaken by advances in guided missile technology.

The AUM-N-4 Diver, also known as Kingfisher D and AUM-4, was a proposed anti-ship and anti-submarine missile, developed for use by the United States Navy in the late 1940s. It was intended to carry a rocket-propelled torpedo that used a single rocket motor for both airborne and underwater propulsion; due to technical issues encountered in the development of the torpedo, no missiles were built before the program was cancelled.

AUM-N-6 Puffin Anti-ship missile

The AUM-N-6 Puffin, also known as Kingfisher F and AUM-6, was an anti-ship and anti-submarine missile developed for use by the United States Navy in the late 1940s. Pulsejet-powered and intended to allow an aircraft to launch a torpedo or bomb from stand-off range, it was flight-tested but failed to enter operational service.

SUM-N-2 Grebe Anti-ship missile

The SUM-N-2 Grebe, also known as Kingfisher E and SUM-2, was a rocket- and pulsejet-powered anti-ship and anti-submarine missile developed by the United States Navy in the late 1940s. Intended to allow a ship to deliver a torpedo at a significant distance from the launch location, it proved impractical in trials, and did not enter operational service.

References

Citations
  1. DOD 4120.15-L (2004), p.84.
  2. 1 2 3 4 5 6 7 Parsch 2002
  3. 1 2 Morison and Rowe 1975, p.216.
  4. 1 2 3 4 5 Friedman 1982, p.228.
  5. Andrade 1979, p.235.
  6. 1 2 3 Friedman 2002, p.405.
Bibliography
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.