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    Posted on March 18th, 2009 Andrey Mikhalchuk No comments

    GoliathThe Goliath tracked mine was an unmanned German-engineered demolition vehicle, also known as the beetle tank to Allies. It carried 75–100 kg (165–220 lb) of high explosives and was intended to be used for multiple purposes, such as destroying tanks, disrupting dense infantry formations, and demolition of buildings and bridges.

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    Goliath tracked mine

    From Wikipedia, the free encyclopedia

    Goliath Sd.kfz 302

    A SdKfz. 302, displayed at the Deutsches Panzermuseum, Munster (2005)
    Type Demolition vehicle
    Place of origin Nazi Germany
    Service history
    In service 1942–1945
    Used by Nazi Germany
    Romania
    Wars World War II
    Production history
    Designed 1942
    Manufacturer Borgward and Zündapp
    Unit cost 3,000 ℛℳ (1942) (€12,577 in 2021)
    Produced 1942–1944
    No. built 7,564
    Specifications
    Mass 370 kg (820 lb)
    Length 1.5 m (4.9 ft)
    Width 0.85 m (2.8 ft)
    Height 0.56 m (1.8 ft)
    Crew One remote operator

    Armor 5 mm (0.20 in)
    Main
    armament
    60 kg (130 lb) explosive charge
    Engine Two Electric Motors
    2 x 2.5 hp (1.9 kW)
    Ground clearance 11.4 cm (4.5 in)
    Operational
    range
    1.5 km (0.93 mi) on-road;
    0.75 km (0.47 mi) off-road.

    Maximum speed

    6 km/h (3.7 mph)
    References

    The Goliath tracked mine (German: Leichter Ladungsträger Goliath, “Goliath Light Charge Carrier”) was a series of two unmanned ground vehicles used by the German Army as disposable demolition vehicles during World War II. These were the electrically powered Sd.Kfz. 302 and the petrol-engine powered Sd.Kfz. 303a and 303b. They were known as “beetle tanks” by the Allies.[1]

    They carried 60 or 100 kg (130 or 220 lb) of high explosives, depending on the model, and were intended to be used for multiple purposes, such as destroying tanks, disrupting dense infantry formations, and the demolition of buildings or bridges. Goliaths were single-use vehicles that were destroyed by the detonation of their warhead.

    Development

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    During and after World War I, a number of inventors devised small, remote-controlled, tracked vehicles intended to carry an explosive charge. During the war, the French developed two vehicles. The Crocodile Schneider Torpille Terrestre[2] (transl. ’Land Torpedo Crocodile Schneider’) carried a 40 kg (88 lb) explosive charge and saw limited combat use in June 1916. However, it performed poorly and was eclipsed by the first tanks, then being introduced.[3] The Aubriot-Gabet Torpille Électrique (transl. ’Aubriot-Gabet Electric Torpedo’) was driven by a single electric motor powered by a trailing cable. This vehicle may have been steered by clutch control on its tracks, although early versions may have lacked steering.[3] This may not have mattered as its task was simply to cross no man’s land to attack the long trenches of the enemy.[4] The Wickersham Land Torpedo was patented by American inventor Elmer Wickersham in 1918[5] and in the 1930s, a similar vehicle was developed by the French vehicle designer Adolphe Kégresse.

    In late 1940, Kégresse’s prototype was recovered by the Germans near the Seine; the Wehrmacht’s ordnance office directed the Carl F.W. Borgward automotive company of Bremen, Germany to develop a similar vehicle for the purpose of carrying a minimum of 50 kg (110 lb) of explosives. The result was the SdKfz. 302 (Sonderkraftfahrzeug, transl. ’special-purpose vehicle’), called the Leichter Ladungsträger (transl. ’light charge carrier’), or Goliath, which carried 60 kg (130 lb) of explosives. The vehicle was steered remotely via a joystick control box. The control box was connected to the Goliath by a 650-metre (2,130 ft), triple-strand cable. The cable was stored on a cable drum in the rear compartment of the Goliath. The cable was used for steering the vehicle left/right, forwards and reverse (reverse on the electric driven 302 version only) and to ignite the explosive charge. Each Goliath was disposable, being intended to be blown up with its target. Early model Goliaths used two electric motors but, as these were costly to make (3,000 Reichsmarks) and difficult to maintain and recharge in a combat environment, later models (known as the SdKfz. 303) used a cheaper two-stroke petrol engine.[6]

    Service

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    Goliath Sd.kfz 303

    An SdKfz. 303, the petrol powered version of the Goliath
    Type Demolition vehicle
    Place of origin Germany
    Service history
    In service 1943–1945
    Used by Nazi Germany,
    Production history
    Designed 1942
    Manufacturer Zündapp and Zachertz
    Produced 1943–1945
    No. built 4,929, both the model a and model b
    Specifications
    Mass 430 kg (950 lb)
    Length 1.69 m (5.5 ft)
    Width 0.91 m (3.0 ft)
    Height 0.62 m (2.0 ft)
    Crew One controller with remote.

    Armor 10 mm (0.39 in)
    Main
    armament
    100 kg (220 lb) explosive charge
    Engine Zündapp SZ7 / 2-cylinder
    12.5 hp (9.3 kW)
    Operational
    range
    12 km (7.5 mi) on-road;
    7 km (4.3 mi) off-road.

    Goliaths were used on all fronts where the Wehrmacht fought, beginning in early 1942. They were used principally by specialized Panzer and combat engineer units. Goliaths were used in Italy at Anzio in April 1944, and against the Polish resistance during the Warsaw Uprising in 1944. A few Goliaths were also seen on the beaches of Normandy during D-Day, though most were rendered inoperative after artillery blasts severed their command cables. Allied troops encountered a small number of Goliaths in the Maritime Alps following the landings in southern France in August 1944, with at least one being used successfully against a vehicle of the 509th Parachute Infantry Battalion.[citation needed]

    Although a total of 7,564 Goliaths were produced, the single-use weapon was not considered a success due to high unit cost, low speed (just above 6 kilometres per hour (3.7 mph)), poor ground clearance (just 11.4 cm (4.5 in)), the vulnerable control cable, and thin armour which could not protect the vehicle from small-arms fire. The Goliath was also too big and heavy to be easily man-portable.[7] They mostly failed to reach their targets, although the effect was considerable when they did.[7]

    Large numbers of Goliaths were captured by the Allies. Although they were examined with interest by Allied intelligence, they were seen as having little military value. Some were used by the United States Army Air Force as aircraft tugs, although they quickly broke down as the disposable vehicles were not designed for sustained use.[7]

    Romanian version

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    During 1944, Romania designed and built its own model of remote-controlled tracked mine, known as “Romanian Goliath”, due to lack of information about its actual name. However, it was markedly different from its German counterpart. The few surviving photos show that the vehicle had no armour, and it is not known if that was ever changed. It did have some functional improvements, however, as the Romanian-designed chassis allowed it to cross trenches and craters much better than its German counterparts. Little is known about the vehicle, other than that it never went beyond the prototype stage and that it weighed about two tonnes.[8]

    Surviving examples

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    A Goliath 303 displayed at the Bovington Tank Museum

    Surviving Goliaths are preserved at:

    See also

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    References

    [edit]

    Citations
    1. ^ Goliath Demolition Tank on YouTube
    2. ^

      “Land torpedo Crocodile Schneider (France)”. weaponews.com.

    3. ^ a b Everett and Toscano (2015) p.412
    4. ^ Everett, Bart (February 19, 2017). “A Brief Early History of Unmanned Systems”. Mechanix Illisttated.
    5. ^

      US patent 1407969 

    6. ^ Army manual D 654/10, Leichter Ladungsträger, Gerätebeschreibung und Bedienungsanweisung. OKH. 1 April 1943.
    7. ^ a b c Everett and Toscano (2015) p.489
    8. ^ “Goliath” — Дистанционно управляемая машина”. October 5, 2018.
    9. ^ “Friends’ Association of the Scientific Collection of Defence Engineering Specimens Koblenz | Home”.
    Bibliography
    • Chamberlain, Peter, and Hilary Doyle (1999). Encyclopedia of German Tanks of World War Two, 2nd ed. London: Arms & Armour. ISBN 1-85409-214-6.
    • H. R. Everett; Michael Toscano (6 November 2015). Unmanned Systems of World Wars I and II. MIT Press. ISBN 978-0-262-02922-3.
    • Gassend Jean-Loup (2014). Autopsy of a Battle, the Allied Liberation of the French Riviera, August September 1944. Atglen PA: Schiffer Publications.
    • Jaugitz, Markus (2001). Funklenkpanzer: A History of German Army Remote-and Radio-Controlled Armor Units, trans. David Johnston. Winnipeg, Manitoba: J.J. Fedorowicz Publishing, Inc. ISBN 0-921991-58-4.
    • Jentz, Thomas L. Panzer Tracts, No. 14: Gepanzerte Pionier-Fahrzeuge (Armored Combat Engineer Vehicles, Goliath to Raeumer). S. Darlington, Maryland: Darlington Productions. ISBN 1-892848-00-7
    • Morison, Samuel Eliot (1957). History of United States Naval Operations in World War II vol. 11. Boston, Mass.: Atlantic Monthly Press.

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      © This material is provided by Wikipedia and licensed under GFDL.

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