Mark 41 vertical launching system
The Mark 41 vertical launching system is a shipborne missile canister launching system which provides a rapid-fire launch capability against hostile threats. The vertical launching system concept was derived from work on the Aegis Combat System.
History
Refinement of the initial concept of Aegis system in the 1960s continued through the 1960s and 1970s, and the Mk 41 was conceived in 1976. Originally, the system was only intended to fire the RIM-66 Standard missile, but the height of the Mk 41 was increased to accommodate the larger Tomahawk missile. The prototype for the launcher was tested and evaluated on board. The first operational launcher was installed aboard.Combat history
On 12 October 2016, was targeted by missiles fired from Yemeni territory while operating in the Bab-el-Mandeb strait. Mason was not hit by the two missiles, which were fired from near the city of Al Hudaydah. While the Navy is not certain whether the first incoming missile was intercepted or it just fell into the sea, officials claim Mason successfully intercepted the second missile at a distance of about, marking the first time in history a warship destroyed an inbound anti-ship missile with a SAM in actual self-defense and the first time the Mk41 VLS did so.Specifications
Mark 41 (Mk 41)
The missiles are pre-loaded into canisters, which are then loaded into the individual cells of the launcher. A cell may have one, two, or four missiles, depending on the missile's diameter. Several models of missiles are integrated into the Mk 41 and Mk 57 systems through the Host Extensible Launch System developed by Lockheed Martin.Mk 41 is fitted to ships in 8 cell modules which are arranged as two rows of four. As Mk 41 is a hot launch system, it also features a common exhaust plenum in each module to redirect the exhaust gases upwards out of the ship, exiting between the two rows. A water deluge system is also fitted for safety, wetting down canisters in event that excessive temperatures are detected. The use of canisters in combination with its availability in three different lengths enables a large variety of ships to be equipped with Mk 41 despite having different use cases. VLS-equipped Ticonderoga-class cruisers along with Flight I and Flight II Arleigh Burke-class destroyers and Kongo-class destroyers have Strikedown modules located both fore and aft, and Iroquois-class destroyers after the TRUMP modernization had a Strikedown module located fore. These modules consist of five cells and a collapsible crane for reloading missiles while underway. This proved to be impractical and dangerous, leading to Strikedown modules being abandoned in the latter half of the 1990s.
The Mk 41 is capable of firing the following missiles :
Surface-to-air
- RIM-66 Standard MR
- RIM-156 Standard ER
- RIM-161 Standard Missile 3
- RIM-174 Standard ERAM / SM-6
- RIM-7 Sea Sparrow
- RIM-162 ESSM
- CAMM
- RIM-116 Rolling Airframe Missile
- Type 23 ship-to-air missile
- MIM-104
Surface-to-surface
- RGM-109 Tomahawk
- Joint Strike Missile
- RGM-179 JAGM
- LRASM BTV
Anti-submarine
- RUM-125 Sea Lance
- RUM-139 VL-ASROC
- Type 07 vertical-launch anti-submarine rocket
Decoy
- Nulka
Mark 57 (Mk 57) PVLS
Developed by Raytheon, Mk 57 provides backward compatibility with existing missiles while allowing new missiles with significantly increased propulsion and payloads. While allowing for larger missiles than the Mk 41, the primary improvement of Mk 57 is its exhaust gas management system which can accommodate new missile designs having up to 45 percent greater rocket motor mass flow rate than that of Mk 41. The unique symmetric geometry of the U-shaped gas management system facilitates the egress of gases, while minimizing flow into adjacent cells and reversed flow into the active cell. Another advantage is the elimination of the water deluge system, which is used to cool the missile canister in the event that the missile restraint bolts do not release after rocket motor ignition. Elimination of the water deluge system significantly reduces maintenance and personnel requirements, and protects against accidental missile wet-down.
| Missiles | 4 cells |
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Variants
- MK 41 Mod 0, s, two 61 cell Vertical Launcher Mk 158 Mod 0 or Mod 1, forward and aft.
- MK 41 Mod 1, s, 61 cells forward.
- MK 41 Mod 2, s, DDG-51 to DDG-78, one 29 cell Vertical Launcher Mk 159 Mod 0 forward, one 61 cell Vertical Launcher Mk 158 Mod 0 aft.
- MK 41 Mod unknown, Constellation-class frigates, 32 cells.
- MK 41 Mod unknown, Álvaro de Bazán-class frigates, 48 cells.
- MK 41 Mod unknown, Deveselu Military Base
- MK 41 Mod 3, s, 16 cells.
- MK 41 Mod 5, s, 8 cells
- MK 41 Mod 7, Arleigh Burke-class destroyers, DDG-79 to DDG-91, one 32 cell Vertical Launcher Mk 177 Mod 0 forward, one 64 cell Vertical Launcher Mk 176 Mod 0 aft.
- MK 41 Mod 8, s, 8 or 16 cells
- MK 41 Mod 9, s, 40 cells
- MK 41 Mod 10, s, 32 cells
- MK 41 Mod 15, Arleigh Burke-class destroyers, DDG-92 and up, one 32 cell Vertical Launcher Mk 177 Mod 3 forward, one 64 cell Vertical Launcher Mk 176 Mod 2 aft.
- MK 41 Mod 16, s, 8 cells
- MK 70 Mod 1, containerized four-cell launcher
- Long-Range Missile Battery, containerized single cell launcher on a US Marine Corps ROGUE- Fires JLTV vehicle
Operators
- Adelaide-class frigate -
- Anzac-class frigate -
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- River-class destroyer -
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- Sachsen-class frigate -
- Brandenburg-class frigate -
- F126 frigate
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- De Zeven Provinciën-class frigate -
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- F110-class frigate -
- Kaohsiung-class tank landing ship -
- Naresuan-class frigate -
- Bhumibol Adulyadej-class frigate -
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- Barbaros-class frigate -
- Type 26 frigate -
- Type 31 frigate -
- Spruance-class destroyer -
- Arleigh Burke-class destroyer -
- Ticonderoga-class cruiser -
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- Constellation-class frigate -
- DDG class destroyer -
Other American VLS
US Submarines use a Mk 45 VLS.