Jump to content

UUM-125 Sea Lance

From Wikipedia, the free encyclopedia

This is an old revision of this page, as edited by Stormchaser89 (talk | contribs) at 15:31, 3 October 2019 (Undid revision 919405861 by Stormchaser89 (talk)). The present address (URL) is a permanent link to this revision, which may differ significantly from the current revision.

UUM-125 Sea Lance
Artist concept
TypeStandoff Anti-Submarine
Place of originUnited States
Service history
Used byUnited States Navy
Production history
ManufacturerBoeing
ProducedCancelled, 1990
Specifications
Mass1,400 kg (3,086 pounds)
Length6.25 m (20 ft 6 in)
Diameter53.3 cm (21.0 in) (capsule diameter)
Detonation
mechanism
RUM/UUM-125A
W89 thermonuclear
RUM/UUM-125B
Mark 50 homing torpedo

EngineHercules EX 116 MOD 0 solid-fuel rocket
Operational
range
UUM-125A
185 kilometres (100 nautical miles)
UUM-125B
65 kilometres (40 miles)
Maximum speed Mach 1.5
Guidance
system
Mk 117 digital fire-control system
Launch
platform
Submarines
Los Angeles class
Seawolf class
Surface Warships
Ticonderoga class
Spruance class
Arleigh Burke class
Sea Lance in-service capsule

The UUM-125 Sea Lance, initially known as the Common ASW Standoff Weapon, was authorized in 1980 as a successor to both the UUM-44 SUBROC and RUR-5 ASROC anti-submarine missiles. The Sea Lance was to be available in two versions, known as UUM-125A and RUM-125A. The former would be a submarine-launched version, the latter surface-launched.

Design and development

In 1982, Boeing was awarded the main contract to develop the system, named the Sea Lance. By the following year, it had become apparent that developing two different versions of the missile was too ambitious, and further development of the RUM-125 was suspended. The RUM-139, a vertical-launch model of the ASROC, was developed as a stopgap weapon in this role.

The Sea Lance was to be housed inside a watertight capsule which could be launched from an ordinary 21 inch torpedo tube. The Mk 117 digital fire-control system provided targeting information to the missile prior to launch. After being fired, the capsule would float to the surface where the rocket would ignite and its fins would deploy. An inertial guidance system would direct the missile to the general location of the target. Initial plans were to have the surface-launched version operate in a similar manner: launched from the Mk 41 vertical launching system. When the missile reached the intended area, the payload would separate from the missile, then deploy a parachute to decelerate the warhead or torpedo. Both missiles were initially planned to carry a depth charge with a 200 kiloton W89 thermonuclear warhead. Such a yield would have given the missile a lethal radius against submarines of around 10 kilometres (6.2 mi). This massive warhead, combined with the fact that the target would be unable to detect the missile until the payload hit the water, made it virtually impossible for a target to escape.

In the mid-1980s, a conventional variant of this missile was proposed which would carry the new Mark 50 torpedo submarine-seeking weapon. This version was dubbed the UUM-125B.

A contract for the full-scale development of the Sea Lance was awarded in 1986. In 1988, it was decided to proceed again with the surface-launched RUM-125 version. The nuclear warhead was canceled in favor of a purely conventional missile. In 1990, the entire program was canceled as a result of the collapse and dismemberment of the Soviet Union. Today the U.S. Navy attack submarines do not have any long-range supersonic stand-off anti-submarine weapon, while U.S. Navy surface warships do have the new, vertical-launch version of the ASROC.

See also

Suggested Reading

  • Polmar, Norman (1993). The Naval Institute Guide to the Ships and Aircraft of the U.S. Fleet (15th ed.). Annapolis, Maryland: Naval Institute Press. ISBN 1557506752.