Mark 45 torpedo | |
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![]() Mark 45 torpedo on display in Aiea, Hawaii, United States | |
Type | Nuclear antisubmarine torpedo [1] |
Place of origin | United States |
Service history | |
In service | 1959–1976 [1] [2] |
Used by | United States Navy |
Production history | |
Designer | Applied Research Laboratory, University of Washington [1] Westinghouse Electric |
Designed | 1957 [1] |
Manufacturer | Westinghouse Electric [1] |
Produced | 1959 [1] |
No. built | 600 |
Variants | Mark 45 Mod 1 [1] Mark 45 Mod 2 |
Specifications | |
Mass | 2,400 pounds (1,100 kg) |
Length | 227 inches (580 cm) |
Diameter | 19 inches (48 cm) |
Warhead | W34 nuclear warhead |
Blast yield | 11 kilotons |
Engine | Electric [1] |
Operational range | 5–8 miles (8–13 km) |
Maximum speed | 40 knots |
Guidance system | Gyroscope and wire |
Launch platform | Submarines [1] |
The Mark 45 anti-submarine torpedo, a.k.a. ASTOR, was a submarine-launched wire-guided nuclear torpedo designed by the United States Navy for use against high-speed, deep-diving, enemy submarines. This was one of several weapons recommended for implementation by Project Nobska, a 1956 summer study on submarine warfare. [3] The 19-inch (480 mm)-diameter torpedo was fitted with a W34 nuclear warhead. The need to maintain direct control over the warhead meant that a wire connection had to be maintained between the torpedo and submarine until detonation. Wire guidance systems were piggybacked onto this cable, and the torpedo had no homing capability. The design was completed in 1960, and 600 torpedoes were built between 1963 and 1976, when ASTOR was replaced by the Mark 48 torpedo.
This electrically propelled, 19-inch (480 mm)-diameter torpedo was 227 inches (5,800 mm) long and weighed 2,400 pounds (1,100 kg). [4] [5] The W34 nuclear warhead used in ASTOR had an explosive yield of 11 kilotons.[ citation needed ] The requirement for positive control of nuclear warheads meant that ASTOR could only be detonated by a deliberate signal from the firing submarine, which necessitated a wire link. Because of this, the torpedo was only fitted with wire guidance systems (transmitted over the same link), and had no homing capability.[ citation needed ] The torpedo had a range of 5 to 8 miles (8.0 to 12.9 km). [5] By replacing the nuclear warhead and removing the wire guidance systems, the torpedo could be reconfigured for unguided launch against surface targets. [4]
Production of ASTOR began in 1959 and it entered service soon after. [1] [2] Approximately 600 torpedoes were built by 1976, when the torpedo was replaced by the Mark 48 torpedo.[ citation needed ] The ASTORs were collected, fitted with conventional warheads and wake homing guidance systems, then sold to foreign navies as the Mark 45 Mod 1 Freedom Torpedo. [5]
The RUR-5 ASROC is an all-weather, all sea-conditions anti-submarine missile system. Developed by the United States Navy in the 1950s, it was deployed in the 1960s, updated in the 1990s, and eventually installed on over 200 USN surface ships, specifically cruisers, destroyers, and frigates. The ASROC has been deployed on scores of warships of many other navies, including Canada, Germany, Italy, Japan, the Republic of China, Greece, Pakistan and others.
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Yu-5 (鱼-5) torpedo is the first wire-guided torpedo developed by China. It is an ASW torpedo designed for conventional diesel-electric submarines. It is often erroneously referred as the Chinese copy of Soviet TEST-71 torpedo, which is incorrect as the Soviet torpedo was developed in 1971 and its successor TEST-71MKE was developed in 1977, at the worst time of Sino-Soviet split. With Yu-5 entering Chinese service in 1989, it was simply impossible to acquire any technologies of Soviet TEST-71 torpedo, which was not purchased by China until 1993, four years after the Yu-5 torpedo had already entered service. The Yu-5 is not a product of indigenous development and is based largely upon previous Soviet and American designs, with much of the propulsion system being derived from the American Mark 46 lightweight torpedo.
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