A mine roller or mine trawl is a demining device mounted on a tank or armoured personnel carrier, designed to detonate anti-tank mines. It allows engineers to clear a lane through a minefield which is protected by enemy fire.

A US Army Panther mine-clearing variant of the M60 Patton tank. It is fitted with mine rollers and operated by remote control.

The device is usually composed of a fork or two push arm assemblies fitted to the front of a tank hull, with two banks of rollers that can be lowered in front of the tank's tracks. Each roller bank has several heavy wheels studded with short projecting steel girders, which apply a higher ground pressure than the tank's tracks. This ensures the explosion of pressure-fused anti-tank mines, which would otherwise explode under the track itself.[1]

History

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At the end of the First World War, the British Army Engineers Major Giffard Le Quesne Martel and Major Charles Inglis experimented with tank bridges and mine rollers based on the Mark V tank. Three special tank battalions were mustered for trials at Christchurch in Hampshire, England, in 1918. Because of the Armistice, these were never tested in battle, but some development work continued with the Experimental Bridging Company until 1925.

After great difficulties caused by minefields in the Winter War against Finland, the Soviet Red Army assigned P.M. Mugalev at the Dormashina Factory in Nikolayev to design a mine-clearing vehicle. Prototypes were tested based on the T-28 medium tank in 1940. Development was interrupted by the start of World War II, but resumed in 1942. T-60 and KV tank chassis underwent trials, but only the T-34 was deemed to have a sufficiently robust transmission and clutch.

Experimental detachments of PT-34 mine roller tanks were formed in May 1942, and saw action at Voronezh in August. The first Independent Engineer Tank Regiment with eighteen mine rollers was fielded in October 1943. At least five regiments were formed during the war.

The PT-34's huge roller fork was semi-permanently mounted on a T-34 or T-34-85 tank. The rollers were usually removed for travel, and only installed for mine clearing operations. Adaptations for later tanks consisted of two lighter arms. The Mugalev system was adopted by U.S. and Israeli forces in the 1980s.

During WWII, the Germans created the experimental Räumer S 4-wheeled armoured mine clearance vehicle, built by Krupp. Weighing 130 tons, the prototype was captured by the Americans at the end of the war.

The British developed the Anti Mine Roller Attachment (AMRA) for their Matilda II, Valentine, and Crusader tanks in the desert. The rollers only covered the width of each track rather than clearing a tank-width path for subsequent vehicles and troops. To these were added a Churchill tank with the evocatively named "Canadian Indestructible Roller Device" (CIRD). The British used mine rollers to detect the presence of minefields and then used mine flails for the clearance.[2]

During World War II, the mine roller most used by US forces was the T1E3 Mine Exploder unit, attached to the M4 Sherman medium tank. It was nicknamed Aunt Jemima because of its pancake-like appearance.[1] It had two sets of five disc rollers, 10 feet (3.0 meters) in diameter each.

Post WW2

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Since 1945, a number of countries have developed mine rollers including:

  • Russia - Stankomash Ltd. - TMT. [3]
  • UK - Armtrac Limited - Armtrac Roller - capable of operating at 50 kph.[4]
  • UK - Pearson Engineering - Light Weight Mine Roller (LWMR). [5]
  • USA - Axion Corporation - fits to Abrams tank. [6]

See also

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References

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  1. ^ a b Bishop, Chris (2002). The Encyclopedia of Weapons of World War II. Sterling Publishing Company, Inc. pp. 59–60. ISBN 978-1-58663-762-0.
  2. ^ Fletcher The Universal Tank HMSO
  3. ^ "Russian Army Engineers receive new equipment". 31 August 2018. Retrieved 31 August 2018.
  4. ^ "Armtrac Roller". Retrieved 6 August 2023.
  5. ^ "Light Weight Mine Roller (LWMR)". Retrieved 6 August 2023.
  6. ^ "M1A1 Abrams Mine rollers W56HZV-09-C-0571". Retrieved 6 August 2023.
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