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A British Mark V (Male) tank

A British Mark V* tank—on the roof the tank carries an unditching beam on rails, that could be attached to the tracks and used to extricate itself from difficult muddy trenches and shell craters

1917: a British tank destroyed by the Germans in the Western Front during WWI

The development of tanks in World War I was a response to the stalemate that trench warfare had created on the western front. An initial vehicle, nicknamed Little Willie, was constructed in Great Britain, at William Foster & Co., during August and September, 1915. The prototype of a new design that would become the Mark I tank was demonstrated to the British Army on February 2, 1916. Although initially termed "land ships" by the Landships Committee, production vehicles were named "tanks", to preserve secrecy. The term was chosen when it became known that the factory workers at William Foster referred to the first prototype as "the tank" because of its resemblance to a steel water tank.

While the British took the lead in tank development, the French were not far behind, fielding their first tanks in April, 1917 and going on to produce more tanks than all the other combatants combined. The Germans, on the other hand, were slower to develop tanks, concentrating on anti-tank weapons to use against British and French tanks, and producing only 20 of their own A7V.[1]

The first tanks were highly mechanically unreliable. There were problems that caused considerable attrition rates during combat deployment and transit. The heavily shelled terrain was impassable to conventional vehicles, and only highly mobile tanks such as the Mark and FTs performed reasonably well. The Mark I's rhomboid shape, caterpillar tracks, and 26 feet length meant that it could navigate obstacles, especially wide trenches, that wheeled vehicles could not. Along with the tank, the first self-propelled gun, the Gun Carrier Mk I, and the first armoured personnel carrier, the Mk IX, were also constructed in World War I.

Conceptual roots of the tank

Mark 3II; tank no. 799 captured near Arras on 11 April 1917

A German-captured British tank in 1917

1917: British tanks captured by the Germans being transported by rail

German forces using captured British Mark IVs during the Second Battle of the Marne

The conceptual roots of the tank arguably go back to ancient times, with siege engines which were able to provide protection for troops moving up against stone walls or other fortifications. With the coming of the Industrial Revolution and the demonstrable power of steam, James Cowan presented a proposal for a Steam Powered Land Ram in 1855, towards the end of the Crimean War. Looking like a helmet on 'footed' Boydell wheels, early forerunners of the Pedrail wheel, it was essentially an armoured steam tractor equipped with cannon and (shades of Boudica) rotating scythes sprouting from the sides. Lord Palmerston is said to have dismissed it as 'barbaric'. It was also probably mechanically impractical.

David Roberts tracked steam tractor

Hornsby tractor

Artillery tractors (here a Holt tractor) were in use in the French Army in 1914-1915. Here, in the Vosges, spring 1915

From 1904 to 1909, David Roberts, the engineer and managing director of Hornsby & Sons of Grantham, built a series of tractors using his patented 'chain-track' which were put through their paces by the British Army, a (small) section of which wanted to evaluate artillery tractors. At one point, in 1908, a perceptive officer remarked to Roberts that he should design a new machine with armour, capable of carrying its own gun. But, disheartened by years of ultimately fruitless tinkering for the Army, Roberts failed to take up the idea.

An engineer in the Austro-Hungarian Army, Lieutenant Gunther Burstyn, inspired by Holt tractors, designed a tracked armoured vehicle in 1911 carrying a light gun in a rotating turret; equipped also with hinged 'arms', two in front and two at the rear, carrying wheels on the ends to assist with obstacles and trenches, it was a very forward-looking design, if rather small. The Austrian government said it would be interested in evaluating it if Burstyn could secure commercial backing to produce a prototype. Lacking the requisite contacts, he let it drop. An approach to the German government was similarly fruitless.

In 1912, A South Australian, Lancelot De Mole, submitted a proposal to the British War Office for a "chain-rail vehicle which could be easily steered and carry heavy loads over rough ground and trenches". De Mole made several more proposals to the War Office after 1912, in 1914 and 1916, with a culminating proposal in late 1917, accompanied by a huge one-eighth scale model, yet all fell on substantially deaf ears. De Mole's proposal already had the climbing face, so typical of the later World War I British tanks, but it is unknown whether there was some connection. Inquiries from the government of Australia, after the war, yielded polite responses that Mr. De Mole's ideas had unfortunately been too advanced for the time to be properly recognised at their just value. The Commission on Awards to Inventors in 1919, which adjudicated all the competing claims to the development of the tank, recognised the brilliance of De Mole's design, even considering that it was superior to the machines actually developed, but due to its narrow remit, could only make a payment of £987 to De Mole to cover his expenses. De Mole noted in 1919 that he was urged by friends before the war to approach the Germans with his design, but declined to do so for patriotic reasons.

French armored car: the Charron-Girardot-Voigt 1902

Before World War I, motorized vehicles were still relatively uncommon, and their use on the battlefield was initially limited, especially of heavier vehicles. Armoured cars soon became more commonplace with most belligerents, especially in more open terrain. On August 23, 1914, the French Colonel Jean Baptiste Eugène Estienne, later a major proponent of tanks, declared: Messieurs, la victoire appartiendra dans cette guerre à celui des deux belligérants qui parviendra le premier à placer un canon de 75 sur une voiture capable de se mouvoir en tout terrain ("Gentlemen, the victory will belong, in this war, to the one of the two belligerents who will be the first to succeed in mounting a 75 mm gun on a vehicle capable of moving in all types of terrain").

Armored cars did indeed prove useful in open land such as in deserts, but were not very good at crossing obstacles (e.g. trenches, barriers) or in more challenging terrain. The other issue was that it was very hard to add much protection or armament.

The main limitation was the wheels, which gave a high ground pressure for the vehicle's weight. This could be solved by adding more wheels, but unless they also were driven, the effect was to reduce traction on the powered wheels. Driving extra wheels meant more drive train weight, in turn requiring a larger and heavier engine to maintain performance. Even worse, none of this extra weight was put into an improvement of armor or armament carried, and the vehicles were still incapable of crossing very rough terrain.

The adoption of caterpillar tracks offered a new solution to the problem. The tracks spread the weight of the vehicles over a much greater area, which was all used for traction to move the vehicle. The limitation on armor and firepower was no longer ground pressure but the power and weight of the power-plant.

The remaining issue was how to utilise and configure a vehicle, which would be figured out first by the Landship Committee and Inventions Committee. A variety of other concepts would be combined, such as special steel for armor, a climbing face for the tracks, and weapons mounted in rotating turrets.

Major General Swinton with Benjamin Holt in Stockton, California relaying gratitude to the inventor for helping to win World War I

But before this could happen some individual would have to set the entire process into motion. This person was to be Major Ernest Dunlop Swinton RE, British official war correspondent serving in France in 1914. Swinton recounts in his book Eyewitness how he first got the sudden idea to build a tank on October 19, 1914, while driving a car in northern France. It is known that in July 1914 he received a letter from a friend, the South-African engineer Hugh Merriot, asking his attention for the fact that armoured tractors might be very useful in warfare. In November 1914 Swinton suggested the idea of an armoured tracked vehicle to the military authorities, by sending a proposal to Lieutenant-Colonel Maurice Hankey. Hankey in turn tried to interest Lord Kitchener in the idea; when this failed he sent a memorandum in December to the Committee of Imperial Defence, of which he was himself the secretary; Winston Churchill the First Lord of the Admiralty was one of the members of the committee. Hankey proposed to build a gigantic steel roller, pushed by tracked tractors, to shield the advancing infantry. Churchill in turn wrote a note on January 5 to the Prime Minister Herbert Asquith, in which he warned that the Germans might any moment introduce a comparable system. A worried Asquith now ordered Kitchener to form the Inventions Committee headed by General Scott-Moncrieff to study the development of armoured vehicles; however this committee concluded in February 1915 that such vehicles were wholly impractical and advised not to develop any.

The Landships Committee

Winston Churchill however decided that if the Army wouldn't take up the idea, the Navy should proceed independently, even if it were to exceed the limits of his authority. He created the Landships Committee in February 1915, initially to investigate designs for a massive troop transporter. As a truer picture of front-line conditions was developed the aims of the investigation changed. A requirement was formulated for an armoured vehicle capable of 4 mph (6 km/h), climbing a 5 feet (1.5 m) high parapet, crossing an 8 feet (2.4 m) wide gap, and armed with machine guns and a light artillery piece. A similar proposal was working its way through the Army GHQ in France, and in June the Landships Committee was made a joint service venture between the War Office and the Admiralty. The Naval involvement in AFV design had originally come about through the Royal Naval Air Service Armoured Car Division, the only British unit fielding AFVs in 1914; surprisingly, until the end of the war most experimentation on heavy land vehicles would be done by Royal Naval Air Service Squadron 20.

The Russian Tsar tank

At first, protecting heavy gun tractors with armour appeared the most promising line of development. Alternative early 'big wheel' designs on the lines of the Russian tzar tank of 1915 were soon understood to be impractical. However, adapting the existing Holt Company caterpillar designs — the only robust tracked tractors available in 1915 — into a fighting machine, as France and Germany did, was decided against. While armour and weapon systems were easy to acquire, other existing caterpillar and suspension units were too weak, existing engines were underpowered for the vehicles that the designers had in mind, and trench-crossing ability was poor because of the shortness of the wheelbase. The Killen-Strait tractor with three tracks was used for the first experiments in June but was much too small to be developed further. The large Pedrail monotrack vehicle proved to be unsuitable. Trials to couple two American Bullock tractors failed. There also were considerable differences of opinion between the several committee members. Col R.E.B. Crompton, a veteran military engineer and electrical pioneer, drafted numerous designs with Lucien Legros for armoured troop carrying vehicles and gun-armed vehicles, to have used either Bullock tracks or variants of the Pedrail. At the same time, Lt Robert Macfie, of the RNAS, and Albert Nesfield, an Ealing-based engineer, devised a number of armoured tracked vehicles, which incorporated an angled front 'climbing face' to the tracks. The two men were to fall out bitterly as their plans came to nought, Macfie in particular pursuing a vendetta against the other members of the Landships Committee after the war.

Little Willie showing its rear steering wheels

To resolve the threatened dissipation of effort, it was ordered in late July that a contract was to be placed with William Foster & Co. Ltd, a company having done some prewar design work on heavy tractors and known to Churchill from an earlier experiment with a trench-crossing supply vehicle, to produce a proof-of-concept vehicle with two tracks, based on a lengthened Bullock tractor chassis. Construction work began three weeks later.

A Mark I tank, moving from left to right. The rhomboidal shape allowed it to climb parapets and cross trenches. Photo by Ernest Brooks.

Fosters of Lincoln built the 14 ton "Little Willie", which first ran on 8 September. Powered by a 105 hp (78 kW) Daimler engine, the 10-foot-high (3.0 m) armoured box was initially fitted with a low Bullock caterpillar. A rotating top turret was planned with a 40 mm gun but abandoned due to weight problems, leaving the final vehicle unarmed and little more than a test-bed for the difficult track system. Difficulties with the commercial tracks supplied led to Tritton designing a completely new track system different from, and vastly more robust than, any other system then in use. The next design by Lieutenant Walter Gordon Wilson RNAS, a pre-war motor engineer, added a larger track frame to the hull of "Little Willie". In order to achieve the demanded gap clearance a rhomboidal shape was chosen—stretching the form to improve the track footprint and climbing capacity. To keep a low centre of gravity the rotating turret design was dropped in favour of sponsons on the sides of the hull fitted with naval 6-pounder (57 mm) guns. A final specification was agreed on in late September for trials in early 1916, and the resulting 30 ton "Big Willie" (later called "Mother") together with "Little Willie" underwent trials at Hatfield Park on 29 January and 2 February. Attendees at the second trial included Lord Kitchener, Lloyd George, Reginald McKenna and other political luminaries. On 12 February an initial order for 100 "Mother" type vehicles was made, later expanded to 150.

Although landship was a natural term coming from an Admiralty committee, it was considered too descriptive and could give away British intentions. The committee therefore looked for an appropriate code term for the vehicles. Factory workers assembling the vehicles had been told they were producing "mobile water tanks" for desert warfare in Mesopotamia. Water Container was therefore considered but rejected because the committee would inevitably be known as the WC Committee (WC meaning water closet was a common British term for a toilet). The term tank, as in water tank, was in December 1915 finally accepted as its official designation. From then on, the term "tank" was established among British and also German soldiers, but rejected by the French. While in German Tank specifically refers to the World War I type (as opposed to modern Panzer), in English, Russian and other languages the name even for contemporary armoured vehicles is still based on the word tank.

A captured British tank in German hands destroying a tree

It is sometimes mistakenly stated that after completion the tanks were shipped to France in large wooden crates. For secrecy and in order to not arouse any curiosity, the crates and the tanks themselves were then each labelled with a destination in Russian, "With Care to Petrograd". In fact the tanks were never shipped in crates: the inscription in Russian was applied on the hull for their transport from the factory to the first training centre at Thetford. Alan

The first fifty had been delivered to France on 30 August. They were 'male' or 'female', depending upon whether their armament comprised two 6-pounder cannon and three Hotchkiss machine guns or four Vickers machine guns and one Hotchkiss. The crew was eight, four of whom were needed to handle the steering and drive gears. The tanks were capable of, at best, 6 km/h (4 mph), matching the speed of marching infantry with whom they were to be integrated to aid in the destruction of enemy machine guns. In practice, their speed on broken ground could be as little as 1 mph.

After the war the Royal Commission on Awards to Inventors decided that the principal inventors of the Tank were Sir William Tritton, managing director of Fosters, and Major Walter Gordon Wilson.

Trial by fire

The Schneider CA1 the first French tank

The first use of tanks on the battlefield was the use of 49 British Mark I tanks at the Battle of Flers-Courcelette (part of the Battle of the Somme) on 15 September 1916, with mixed results; many broke down, but nearly a third succeeded in breaking through. Of the forty-nine tanks shipped to the Somme, only thirty-two were able to begin the first attack in which they were used and only nine made it across "no man's land" to the German lines. The tanks had been rushed into combat before the design was mature enough (against Churchill's wishes) and the number was small but their use gave important feedback on how to design newer tanks, the soundness of the concept, and their potential to affect the course of the war. On the other hand, the French Army was critical of the British employment of small numbers of tanks at this battle. They felt the British had sacrificed the secrecy of the weapon while employing it in numbers too small to be decisive. Considering that the British attack was part of an Anglo-French offensive while the Russians were also attacking at the same time, Haig felt justified in making a maximum effort, regardless of the limitations of the tank force.

The Mark Is were capable of performing on the real battlefield of World War I, one of the most difficult battlefield terrains ever. They did have reliability problems, but when they were working they could cross trenches or craters of 9 feet (2.7 m) and drive right through barbed wire. It was still common for them to get stuck, especially in larger bomb craters, but overall the rhomboid shape allowed for extreme terrain mobility.

Splatter mask used by tank crews in World War One

Most World War I tanks could travel only at about a walking pace at best. Their steel armour could stop small arms fire and fragments from high-explosive artillery shells. However they were vulnerable to a direct hit from artillery and mortar shells. The environment inside was extremely unpleasant; as ventilation was inadequate the atmosphere was heavy with poisonous carbon monoxide from the engine and firing the weapons, fuel and oil vapours from the engine and cordite fumes from the weapons. Temperatures inside could reach 50 °C (122 °F). Entire crews lost consciousness inside the tanks, or collapsed when again exposed to fresh air.[2]

To counter the fumes inside and the danger of bullet splash or fragments and rivets knocked off the inside of the hull, the crew wore helmets with goggles and chainmail masks. Gas masks were also standard issue, as they were to all soldiers at this point in the war due to the use of chemical warfare. The side armour of 8 mm initially made them largely immune to small arms fire, but could be penetrated by the recently developed armour-piercing K bullets. There was also the danger of being overrun by infantry and attacked with grenades. The next generation had thicker armour, making them nearly immune to the K bullets. In response, the Germans developed a larger purpose-made anti-tank rifle, and also a Geballte Ladung ("Bunched Charge")—several regular stick grenades bundled together for a much bigger explosion.

Engine power was a primary limitation on the tanks; the roughly one hundred horsepower engines gave a power-to-weight ratio of 3.3 hp/ton (2.5 kW/ton). By the end of the 20th century, power-to-weight ratios exceeded 20 hp/ton (15 kW/ton).

Many feel that because the British Commander Field Marshal Douglas Haig was himself a horse cavalryman, his command failed to appreciate the value of tanks. In fact, horse cavalry doctrine in World War I was to "follow up a breakthrough with harassing attacks in the rear", but there were no breakthroughs on the Western Front until the tanks came along. Despite these supposed views of Haig, he made an order for 1,000 tanks shortly after the failure at the Somme and always remained firmly in favour of further production.

In 1919, Major General Sir Louis Jackson said: "The tank was a freak. The circumstances which called it into existence were exceptional and not likely to recur. If they do, they can be dealt with by other means."[3]

French developments

Renault FT tanks being operated by the US Army in France. Light tanks with a crew of only two, these were mass-produced during World War I.

France at the same time developed its own tracked AFVs, but the situation there was very different. In Britain a single committee had coordinated design, and had to overcome the initial resistance of the Army, while the major industries remained passive. Almost all production effort was thus concentrated into the Mark I and its direct successors, all very similar in shape. In France, on the other hand, there were multiple and conflicting lines of development which were badly integrated, resulting in three major and quite disparate production types. A major arms producer, Schneider, took the lead in January 1915 and tried to build a first armoured vehicle based on the Baby Holt tractor but initially the development process was slow until in July they received political, even presidential, support by combining their project with that of a mechanical wire cutter devised by engineer and politician Jean-Louis Bréton. In December 1915, the influential Colonel Estienne made the Supreme Command very enthusiastic about the idea of creating an armoured force based on these vehicles; strong Army support for tanks would be a constant during the decades to come. Already in January and February 1916 quite substantial orders were made, at that moment with a total number of 800 much larger than the British ones.

French Saint-Chamond tanks had long bodies with a lot of the vehicle projecting forward off of the short caterpillar tracks, making them more liable to get ditched in trenches.

Army enthusiasm and haste would have its immediate drawbacks however. As a result of the involvement of inexperienced army officers ordered to devise a new tank based on the larger 75 hp Holt chassis in a very short period of time, the first French tanks were poorly designed with respect to the need to cross trenches and did not take the sponson-mounting route of the British tanks. The first, the Char Schneider CA equipped with a short 75 mm howitzer, had poor mobility due to a short track length combined with a hull that overhung front and rear. It was unreliable as well; a maximum of only about 130 of the 400 built were ever operational at the same time. Then industrial rivalry began to play a detrimental role: it created the heavy Char St Chamond, a parallel development not ordered by the Army but approved by government through industrial lobby, which mounted much more impressive weaponry — its 75 mm was the most powerful gun fielded by any operational tank up till 1941 — but also combined many of the Schneider CA's faults with an even larger overhanging body. Its innovative petro-electrical transmission, while allowing for easy steering, was insufficiently developed and led to a large number of breakdowns.

The Renault FT, the first "modern" tank

But industrial initiative also led to swift advances. The car industry, already used to vehicle mass production and having much more experience in vehicle layout, in 1916 designed the first practical light tanks, a class largely neglected by the British. It would be Renault's excellent small tank design, the FT, incorporating a proper climbing face for the tracks, that was the first tank to incorporate a top-mounted turret with a full 360º traverse capability. In fact the FT was in many respects the first truly 'modern' tank having a layout that has been followed by almost all designs ever since: driver at the front; main armament in a fully rotating turret on top; engine at the rear. Previous models had been "box tanks", with a single crowded space combining the role of engine room, fighting compartment, ammunition stock and driver's cabin. (A very similar Peugeot prototype, with a fixed casemate mounting a short 75mm cannon, was trialled in 1918 but the idea was not pursued) The FT would have the largest production run of any tank of the war, with over 3700 built, more numerous than all British tanks combined. That this would happen was at first far from certain; some in the French army lobbied for the alternative mass production of super-heavy tanks. Much design effort was put in this line of development resulting in the gigantic Char 2C, the most complex and technologically advanced tank of its day. Its very complexity ensured it being produced too late to participate in World War I and in the very small number of just ten, but it would be the first tank with a three-man turret; the heaviest to enter service until late in World War II and still the largest ever operational.

French production at first lagged behind the British. After August 1916 however, British tank manufacture was temporarily halted to wait for better designs, allowing the French to overtake their allies in numbers. When the French used tanks for the first time on 16 April 1917, during the Nivelle Offensive, they had four times more tanks available. But that would not last long as the offensive was a major failure; the Schneiders were badly deployed and suffered 50% losses from German long-range artillery. The Saint-Chamond tanks, first deployed on 5 May, proved to be so badly designed that they were unable to cross the first line of German trenches.

Battle of Cambrai

British-operated FT tank attached to Canadian troops

The first really successful use of tanks came in the Battle of Cambrai in 1917. British Colonel J.F.C. Fuller, chief of staff of the Tank Corps, was responsible for the tanks' role in the battle. They made an unprecedented breakthrough but, as ever on the Western front, the opportunity was not exploited. Ironically, it was the soon-to-be-supplanted horse cavalry that had been assigned the task of following up the motorised tank attack.

Tanks became more effective as the lesson of the early tanks was absorbed. The British produced the Mark IV in 1917. Similar to the early Marks in appearance, its construction was considered to produce a more reliable machine, the long-barrelled naval guns were shortened (the barrels of the earlier, longer, guns, being prone to digging in the mud when negotiating obstacles) and armour was increased just enough to defeat the standard German armour-piercing bullet.

The continued need for four men to drive the tank was solved with the Mark V which used Wilson's epicyclic gearing in 1918. Also in 1918 the French produced the Renault FT, the result of a co-operation between Estienne and Louis Renault. As mentioned before, it had the innovative turret position, and was operated by two men. At just 8 tons it was half the weight of the Medium A Whippet but the version with the cannon had more firepower. It was conceived for mass production, and the FT would become the most produced tank of World War I by a wide margin, with over 3,000 delivered to the French Army. Large numbers were used by the Americans and several were also loaned to the British.

In July 1918, the French used 480 tanks (mostly FTs) in 1918 at the Battle of Soissons, and there were even larger assaults planned for 1919. The Entente had hoped to commit over 30,000 tanks to battle in that year.

Villers-Bretonneux: tank against tank

German A7V tank at Roye on March 21, 1918.

Film clip of World War I-era tanks.

The German General Staff did not have enthusiasm for the tanks, but allowed the development of anti-tank weapons. Regardless, development of a German tank was underway. The only project to be produced and fielded was the A7V, although only twenty were built. The majority of the fifty or so tanks fielded by Germany were captured British vehicles. A7Vs were captured by the Allies, but they were not used, and most ended up being scrapped.

The first tank-versus-tank battles took place 24 April 1918. It was an unexpected engagement between three German 7Vs and three British Mk. IVs at Villers-Bretonneux.

Fuller's Plan 1919 involving massive use of tanks for an offensive, was never used because the blockade of Germany and the entry of the US brought an end to the war. The plan itself would become the inspiration for German blitzkrieg tactics in World War II. As a military planner and later journalist, Fuller continued to develop his doctrine of using tanks supported by infantry to break through enemy lines to attack communications in the rear.

Finally, in a preview of later developments, the British developed the Whippet. This tank was specifically designed to exploit breaches in the enemy front. The Whippet was faster than most other tanks, although it carried only machinegun armament. Postwar tank designs would reflect this trend towards greater tactical mobility.

By 1918, the Germans had learned to deal with tanks. At the Battle of Amiens (1918) 72% of the Allied Tank Corps was destroyed in the first 4 days. 41.4% of all British tanks had been destroyed by the 64th day. On November 5, there were only 8 tanks left in the British tank corps.[4]

See also

Notes and references

  1. Showalter, D.E. "More Than Nuts And Bolts: Technology And The German Army, 1870–1945." Historian 65.1 (Fall 2002): 123-143. Academic Search Premier. Web. 16 Feb. 2012.
  2. Macpherson WG, Herringham WP, Elliot TR, Balfour A. History of the Great War Based on Official Documents: Medical Services Diseases of the War. Vol 2. London, England: His Majesty’s Stationery Office; 1923. in Weyandt, Timothy B. and Charles David Ridgely. "Carbon Monoxide." Occupational Health: The Soldier and the Industrial Base. 1993: Office of the Surgeon General, U.S. Department of the Army. p. 402-403. Web. 16 Feb 2012
  3. Military Blunders, page 152
  4. Blitzkrieg, pages 109-10
  • Glanfield, John (2001) Devil's Chariots: the birth and secret battles of the first tanks. Stroud: Sutton

Further reading

External links

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