M104 Wolverine

M104 Wolverine Heavy Assault Bridge from 59th Engineer Company, 20th Engineer Battalion, U.S. Army.

The M104 Wolverine Heavy Assault Bridge is an armored military engineering vehicle created by General Dynamics Land Systems, designed to provide deployable bridge capability for units engaged in military operations.

Background

Since the 1960s the United States Army has made use of armored bridge-laying vehicles based on the M48 Patton/M60 series of tanks. In recent years, however, the Army discovered that the aging M60 AVLB (Armored Vehicle Launched Bridge) was too slow to keep up with the M1 Abrams' top speed of roughly 70 km/h during field maneuvers. Additionally, the Abrams was so heavy that it could safely cross the AVLB's bridge only at a very slow speed.

Program development for a new armored bridge-laying vehicle began in 1983, and by 1994 General Dynamics Land Systems and the German MAN Mobile Bridges GmbH (since 2005 Krauss-Maffei Wegmann) had been awarded a contract. The first prototype vehicles were being tested by 1996, and the first production models were delivered by 2003.

Description

Because the Wolverine is essentially an M1A2 SEP tank with Leguan[1] bridge-laying gear instead of a turret, it shares virtually all of the parent vehicle's speed, mobility, survivability, and automotive components. This commonality was a key design factor in the Wolverine's development. The Wolverine also features an advanced communications package designed to keep it in contact with local field commanders. However, the underlying vehicle is unarmed.

The Wolverine is operated by two crewmen who sit within the hull. Both crewmen have access to the bridging controls, while the bridge is carried in two sections, stacked above the hull. Once a bridging site is chosen the vehicle securely anchors itself in place with a spade. The two sections of the bridge are joined together, and then the entire bridge is extended across the obstacle and dropped into place. The crewmen have the ability to make minor corrections during launch, if needed. Once operations are complete, the Wolverine drives across the bridge and retrieves it from the other side simply by reversing the process. The bridge can be launched in under five minutes or retrieved in less than ten minutes, all without the crewmen ever leaving the safety of their vehicle.

The bridging controls are a basic push-button system, while the computer assembles the bridge and deploys it. This limits the crew in their ability to make corrections based on slight misalignment of the chassis before deployment. The bridge must be fully extended, then recovered before corrections in chassis placement can be done. The M60 AVLB (Armored Vehicle Launched Bridge) system was completed by levers and buttons the operator must operate manually, thus giving them the ability to stop bridge deployment and make minute chassis adjustments without having to completely stow the bridge.

Once launched, the 26-meter Leguan bridge[1] can support a 70-ton vehicle moving at 16 km/h, or 10 miles per hour.[2] The Wolverine thus allows the heaviest of vehicles to cross craters, ditches, and damaged bridges at combat speed. This mobility is a decisive advantage for armored units.

Future plans

To date the United States Army has received 44 Wolverines, which have been distributed to a few select engineer units. The army had originally intended to purchase 465 vehicles; however, budget cuts and the recent shift in philosophy toward a lighter fighting force have cast the future of the program in doubt. The army does not plan to purchase any more Wolverines, but it has reserved the right to restart production if necessary.

The United States Army and Marine Corps are planning to replace the Wolverine with the Leonardo DRS Joint Assault Bridge (JAB), which also has an Abrams tank chassis, but is combined with an 18.3-metre (60 ft) scissor bridge. While the M104 was intended to replace the AVLB, it was found to be too expensive and complicated to maintain and operate. While the JAB's bridge is shorter, it has a faster deployment time of three minutes, compared to the Wolverine's 3-5 minute set-up time. On August 23, 2016, DRS Technologies, Inc., announced that the U.S. Army had awarded it an indefinite quantity contract worth up to $400 million to build the new Joint Assault Bridge (JAB) system to carry, deploy and recover a heavy “scissor” bridge.[3] First deliveries are planned in mid-2017, with low-rate initial production expected to be reached in 2019.[4]

See also

References

  1. 1 2 Bridge laying system LEGUAN - KMW
  2. "Wolverine (Heavy Assault Bridge)". fas.org. Archived from the original on 15 April 2015. Retrieved 11 April 2015.
  3. DRS Technologies Awarded Up To $400 Million U.S. Army Contract To Build New Joint Assault Bridge System - August 23, 2016
  4. Army, DRS Set To Integrate New Bridging System on Tanks - Defensenews.com, 6 September 2016
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