Dreadnought
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The dreadnought was the predominant type of battleship in the early 20th century. The first of the kind, the Royal Navy's Script error: No such module "WPSHIPS utilities"., had such an effect when launched in 1906 that similar battleships built after her were referred to as "dreadnoughts", and earlier battleships became known as pre-dreadnoughts. Her design had two revolutionary features: an "all-big-gun" armament scheme, with an unprecedented number of heavy-calibre guns, and steam turbine propulsion.Template:Efn As dreadnoughts became a crucial symbol of national power, the arrival of these new warships renewed the naval arms race between the United Kingdom and Germany. Dreadnought races sprang up around the world, including in South America, lasting up to the beginning of World War I. Successive designs increased rapidly in size and made use of improvements in armament, armour, and propulsion throughout the dreadnought era. Within five years, new battleships outclassed Dreadnought herself. These more powerful vessels were known as "super-dreadnoughts". Most of the original dreadnoughts were scrapped after the end of World War I under the terms of the Washington Naval Treaty, but many of the newer super-dreadnoughts continued serving throughout World War II.
Dreadnought-building consumed vast resources in the early 20th century, but there was only one battle between large dreadnought fleets. At the Battle of Jutland in 1916, the British and German navies clashed with no decisive result. The term dreadnought gradually dropped from use after World War I, especially after the Washington Naval Treaty, as virtually all remaining battleships shared dreadnought characteristics; it can also be used to describe battlecruisers, the other type of ship resulting from the dreadnought revolution.Template:Sfn
Origins
The distinctive all-big-gun armament of the dreadnought was developed in the first years of the 20th century as navies sought to increase the range and power of the armament of their battleships. The typical battleship of the 1890s, now known as the "pre-dreadnought", had a main armament of four heavy guns of Script error: No such module "convert". calibre, a secondary armament of six to eighteen quick-firing guns of between Script error: No such module "convert". calibre, and other smaller weapons. This was in keeping with the prevailing theory of naval combat that battles would initially be fought at some distance, but the ships would then approach to close range for the final blows (as they did in the Battle of Manila Bay), when the shorter-range, faster-firing guns would prove most useful. Some designs had an intermediate battery of Script error: No such module "convert". guns. Serious proposals for an all-big-gun armament were circulated in several countries by 1903.Template:Sfn
All-big-gun designs commenced almost simultaneously in three navies. In 1904, the Imperial Japanese Navy authorized construction of Script error: No such module "WPSHIPS utilities".Script error: No such module "Check for unknown parameters"., originally designed with twelve Script error: No such module "convert". guns. Work began on her construction in May 1905.Template:SfnTemplate:Sfn The Royal Navy began the design of HMS Dreadnought in January 1905, and she was laid down in October of the same year.Template:Sfn Finally, the US Navy gained authorization for Script error: No such module "WPSHIPS utilities"., carrying eight 12-inch guns, in March 1905,Template:Sfn with construction commencing in December 1906.Template:Sfn
The move to all-big-gun designs was accomplished because a uniform, heavy-calibre armament offered advantages in both firepower and fire control, and the Russo-Japanese War of 1904–1905 showed that future naval battles could, and likely would, be fought at long distances.Template:Efn The newest Script error: No such module "convert". guns had longer range and fired heavier shells than a gun of Script error: No such module "convert". calibre.Template:Sfn Another possible advantage was fire control; at long ranges guns were aimed by observing the splashes caused by shells fired in salvoes, and it was difficult to interpret different splashes caused by different calibres of gun. There is still debate as to whether this feature was important.Template:Sfn
Long-range gunnery
In naval battles of the 1890s the decisive weapon was the medium-calibre, typically Script error: No such module "convert"., quick-firing gun firing at relatively short range; at the Battle of the Yalu River in 1894, the victorious Japanese did not commence firing until the range had closed to Script error: No such module "convert"., and most of the fighting occurred at Script error: No such module "convert"..Template:Sfn At these ranges, lighter guns had good accuracy, and their high rate of fire delivered high volumes of ordnance on the target, known as the "hail of fire". Naval gunnery was too inaccurate to hit targets at a longer range.Template:Efn
By the early 20th century, British and American admirals expected future battleships would engage at longer distances. Newer models of torpedo had longer ranges.Template:Sfn For instance, in 1903, the US Navy ordered a design of torpedo effective to Script error: No such module "convert"..Template:Sfn Both British and American admirals concluded that they needed to engage the enemy at longer ranges.Template:SfnTemplate:Sfn In 1900, Admiral John Fisher, commanding the Royal Navy Mediterranean Fleet, ordered gunnery practice with 6-inch guns at Script error: No such module "convert"..Template:Sfn By 1904 the US Naval War College was considering the effects on battleship tactics of torpedoes with a range of Script error: No such module "convert"..Template:Sfn
The range of light and medium-calibre guns was limited, and accuracy declined badly at longer range.Template:Efn At longer ranges the advantage of a high rate of fire decreased; accurate shooting depended on spotting the shell-splashes of the previous salvo, which limited the optimum rate of fire.Template:Sfn
On 10 August 1904 the Imperial Russian Navy and the Imperial Japanese Navy had one of the longest-range gunnery duels to date—over Template:Cvt during the Battle of the Yellow Sea.Template:Sfn The Russian battleships were equipped with Lugeol range finders with an effective range of Template:Cvt, and the Japanese ships had Barr & Stroud range finders that reached out to Template:Cvt, but both sides still managed to hit each other with Script error: No such module "convert". fire at Template:Cvt.Template:Sfn Naval architects and strategists around the world took notice.
All-big-gun mixed-calibre ships
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An evolutionary step was to reduce the quick-firing secondary battery and substitute additional heavy guns, typically Script error: No such module "convert".. Ships designed in this way have been described as 'all-big-gun mixed-calibre' or later 'semi-dreadnoughts'. Semi-dreadnought ships had many heavy secondary guns in wing turrets near the centre of the ship, instead of the small guns mounted in barbettes of earlier pre-dreadnought ships.
Semi-dreadnought classes included the British Script error: No such module "WPSHIPS utilities". and Script error: No such module "WPSHIPS utilities".; the Japanese Script error: No such module "WPSHIPS utilities"., Script error: No such module "WPSHIPS utilities"., and Script error: No such module "WPSHIPS utilities".;Template:Sfn French Script error: No such module "WPSHIPS utilities".; and Austro-Hungarian Script error: No such module "WPSHIPS utilities".es.
The design process for these ships often included discussion of an 'all-big-gun one-calibre' alternative.Template:SfnTemplate:Efn The June 1902 issue of Proceedings of the US Naval Institute contained comments by the US Navy's leading gunnery expert, P. R. Alger, proposing a main battery of eight Script error: No such module "convert". guns in twin turrets.Template:Sfn In May 1902, the Bureau of Construction and Repair submitted a design for the battleship with twelve Script error: No such module "convert". guns in twin turrets, two at the ends and four in the wings.Template:Sfn Lt. Cdr. Homer C. Poundstone submitted a paper to President Theodore Roosevelt in December 1902 arguing the case for larger battleships. In an appendix to his paper, Poundstone suggested a greater number of Script error: No such module "convert". guns was preferable to a smaller number of Script error: No such module "convert"..Template:Sfn The Naval War College and Bureau of Construction and Repair developed these ideas in studies between 1903 and 1905. War-game studies begun in July 1903 "showed that a battleship armed with twelve Script error: No such module "convert". guns hexagonally arranged would be equal to three or more of the conventional type."Template:Sfn
The Royal Navy was thinking along similar lines. A design had been circulated in 1902–1903 for "a powerful 'all big-gun' armament of two calibres, viz. four Script error: No such module "convert". and twelve Script error: No such module "convert". guns."Template:Sfn The Admiralty decided to build three more King Edward VIIs (with a mixture of 12-inch, 9.2-inch and 6-inch) in the 1903–1904 naval construction programme instead.Template:Sfn The all-big-gun concept was revived for the 1904–1905 programme, the Lord Nelson class. Restrictions on length and beam meant the midships 9.2-inch turrets became single instead of twin, thus giving an armament of four 12-inch, ten 9.2-inch and no 6-inch. The constructor for this design, J. H. Narbeth, submitted an alternative drawing showing an armament of twelve 12-inch guns, but the Admiralty was not prepared to accept this.Template:Sfn Part of the rationale for the decision to retain mixed-calibre guns was the need to begin the building of the ships quickly because of the tense situation produced by the Russo-Japanese War.Template:Sfn
Switch to all-big-gun designs
The replacement of the Script error: No such module "convert". guns with weapons of Script error: No such module "convert". calibre improved the striking power of a battleship, particularly at longer ranges. Uniform heavy-gun armament offered many other advantages. One advantage was logistical simplicity. When the US was considering whether to have a mixed-calibre main armament for the Script error: No such module "WPSHIPS utilities"., for example, William Sims and Poundstone stressed the advantages of homogeneity in terms of ammunition supply and the transfer of crews from the disengaged guns to replace gunners wounded in action.Template:Sfn
A uniform calibre of gun also helped streamline fire control. The designers of Dreadnought preferred an all-big-gun design because it would mean only one set of calculations about adjustments to the range of the guns.Template:Efn Some historians today hold that a uniform calibre was particularly important because the risk of confusion between shell-splashes of 12-inch and lighter guns made accurate ranging difficult. This viewpoint is controversial, as fire control in 1905 was not advanced enough to use the salvo-firing technique where this confusion might be important,Template:Sfn and confusion of shell-splashes does not seem to have been a concern of those working on all-big-gun designs.Template:Efn Nevertheless, the likelihood of engagements at longer ranges was important in deciding that the heaviest possible guns should become standard, hence 12-inch rather than 10-inch.Template:Efn
The newer designs of 12-inch gun mounting had a considerably higher rate of fire, removing the advantage previously enjoyed by smaller calibres. In 1895, a 12-inch gun might have fired one round every four minutes; by 1902, two rounds per minute was usual.Template:Sfn In October 1903, the Italian naval architect Vittorio Cuniberti published a paper in Jane's Fighting Ships entitled "An Ideal Battleship for the British Navy", which called for a 17,000-ton ship carrying a main armament of twelve 12-inch guns, protected by armour 12 inches thick, and having a speed of Script error: No such module "convert"..Template:Sfn Cuniberti's idea—which he had already proposed to his own navy, the Script error: No such module "Lang".—was to make use of the high rate of fire of new 12-inch guns to produce devastating rapid fire from heavy guns to replace the 'hail of fire' from lighter weapons.Template:Sfn Something similar lay behind the Japanese move towards heavier guns; at Tsushima, Japanese shells contained a higher than normal proportion of high explosive, and were fused to explode on contact, starting fires rather than piercing armour.Template:Sfn The increased rate of fire laid the foundations for future advances in fire control.Template:Sfn
Building the first dreadnoughts
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In Japan, the two battleships of the 1903–1904 programme were the first in the world to be laid down as all-big-gun ships, with eight 12-inch guns. The armour of their design was considered too thin, demanding a substantial redesign.Template:Sfn The financial pressures of the Russo-Japanese War and the short supply of 12-inch guns—which had to be imported from the United Kingdom—meant these ships were completed with a mixture of 12-inch and 10-inch armament. The 1903–1904 design retained traditional triple-expansion steam engines, unlike Dreadnought.Template:Sfn
The dreadnought breakthrough occurred in the United Kingdom in October 1905. Fisher, now the First Sea Lord, had long been an advocate of new technology in the Royal Navy and had recently been convinced of the idea of an all-big-gun battleship.Template:Efn Fisher is often credited as the creator of the dreadnought and the father of the United Kingdom's great dreadnought battleship fleet, an impression he himself did much to reinforce. It has been suggested Fisher's main focus was on the arguably even more revolutionary battlecruiser and not the battleship.Template:Sfn
Shortly after taking office, Fisher set up a Committee on Designs to consider future battleships and armoured cruisers.Template:Sfn The committee's first task was to consider a new battleship. The specification for the new ship was a 12-inch main battery and anti-torpedo-boat guns but no intermediate calibres, and a speed of Template:Cvt, which was two or three knots faster than existing battleships.Template:Sfn The initial designs intended twelve 12-inch guns, though difficulties in positioning these guns led the chief constructor at one stage to propose a return to four 12-inch guns with sixteen or eighteen of 9.2-inch. After a full evaluation of reports of the action at Tsushima compiled by an official observer, Captain Pakenham, the Committee settled on a main battery of ten 12-inch guns, along with twenty-two 12-pounders as secondary armament.Template:Sfn The committee also gave Dreadnought steam turbine propulsion, which was unprecedented in a large warship. The greater power and lighter weight of turbines meant the 21-knot design speed could be achieved in a smaller and less costly ship than if reciprocating engines had been used.Template:Sfn Construction took place quickly; the keel was laid on 2 October 1905, the ship was launched on 10 February 1906, and completed on 3 October 1906—an impressive demonstration of British industrial might.Template:Sfn
The first US dreadnoughts were the two South Carolina-class ships. Detailed plans for these were worked out in July–November 1905, and approved by the Board of Construction on 23 November 1905.Template:Sfn Building was slow; specifications for bidders were issued on 21 March 1906, the contracts awarded on 21 July 1906Template:Sfn and the two ships were laid down in December 1906, after the completion of the Dreadnought.Template:Sfn
Design
The designers of dreadnoughts sought to provide as much protection, speed, and firepower as possible in a ship of a realistic size and cost. The hallmark of dreadnought battleships was an "all-big-gun" armament, but they also had heavy armour concentrated mainly in a thick belt at the waterline and in one or more armoured decks. Secondary armament, fire control, command equipment, and protection against torpedoes also had to be crammed into the hull.Template:Sfn
The inevitable consequence of demands for ever greater speed, striking power, and endurance meant that displacement, and hence cost, of dreadnoughts tended to increase. The Washington Naval Treaty of 1922 imposed a limit of 35,000 tons on the displacement of capital ships. In subsequent years treaty battleships were commissioned to build up to this limit. Japan's decision to leave the Treaty in the 1930s, and the arrival of the Second World War, eventually made this limit irrelevant.Template:Sfn
Armament
Dreadnoughts mounted a uniform main battery of heavy-calibre guns; the number, size, and arrangement differed between designs. Dreadnought mounted ten 12-inch guns. 12-inch guns had been standard for most navies in the pre-dreadnought era, and this continued in the first generation of dreadnought battleships. The Imperial German Navy was an exception, continuing to use 11-inch guns in its first class of dreadnoughts, the Script error: No such module "WPSHIPS utilities"..Template:Sfn
Dreadnoughts also carried lighter weapons. Many early dreadnoughts carried a secondary armament of very light guns designed to fend off enemy torpedo boats. The calibre and weight of secondary armament tended to increase, as the range of torpedoes and the staying power of the torpedo boats and destroyers expected to carry them also increased. From the end of World War I onwards, battleships had to be equipped with many light guns as anti-aircraft armament.Template:Sfn
Dreadnoughts frequently carried torpedo tubes themselves. In theory, a line of battleships so equipped could unleash a devastating volley of torpedoes on an enemy line steaming a parallel course. This was also a carry-over from the older tactical doctrine of continuously closing range with the enemy, and the idea that gunfire alone may be sufficient to cripple a battleship, but not sink it outright, so a coup de grace would be made with torpedoes. In practice, torpedoes fired from battleships scored very few hits, and there was a risk that a stored torpedo would cause a dangerous explosion if hit by enemy fire.Template:Sfn And in fact, the only documented instance of one battleship successfully torpedoing another came during the action of 27 May 1941, where the British battleship Script error: No such module "WPSHIPS utilities". claimed to have torpedoed the crippled Script error: No such module "WPSHIPS utilities".Script error: No such module "Check for unknown parameters". at close range.Template:Sfn
Position of main armament
The effectiveness of the guns depended in part on the layout of the turrets. Dreadnought, and the British ships which immediately followed it, carried five turrets: one forward, one aft and one amidships on the centreline of the ship, and two in the 'wings' next to the superstructure. This allowed three turrets to fire ahead and four on the broadside. The Nassau and Script error: No such module "WPSHIPS utilities". classes of German dreadnoughts adopted a 'hexagonal' layout, with one turret each fore and aft and four wing turrets; this meant more guns were mounted in total, but the same number could fire ahead or broadside as with Dreadnought.Template:Sfn
Dreadnought designs experimented with different layouts. The British Neptune-class battleship staggered the wing turrets, so all ten guns could fire on the broadside, a feature also used by the German Script error: No such module "WPSHIPS utilities".. This risked blast damage to parts of the ship over which the guns fired, and put great stress on the ship's frames.Template:Sfn
If all turrets were on the centreline of the vessel, stresses on the ship's frames were relatively low. This layout meant the entire main battery could fire on the broadside, though fewer could fire end-on. It meant the hull would be longer, which posed some challenges for the designers; a longer ship needed to devote more weight to armour to get equivalent protection, and the magazines which served each turret interfered with the distribution of boilers and engines.Template:Sfn For these reasons, Script error: No such module "WPSHIPS utilities"., which carried a record fourteen 12-inch guns in seven centreline turrets, was not considered a success.Template:Sfn
A superfiring layout was eventually adopted as standard. This involved raising one or two turrets so they could fire over a turret immediately forward or astern of them. The US Navy adopted this feature with their first dreadnoughts in 1906, but others were slower to do so. As with other layouts there were drawbacks. Initially, there were concerns about the impact of the blast of the raised guns on the lower turret. Raised turrets raised the centre of gravity of the ship, and might reduce the stability of the ship. Nevertheless, this layout made the best of the firepower available from a fixed number of guns, and was eventually adopted generally.Template:Sfn The US Navy used superfiring on the South Carolina class, and the layout was adopted in the Royal Navy with the Script error: No such module "WPSHIPS utilities". of 1910. By World War II, superfiring was entirely standard.
Initially, all dreadnoughts had two guns to a turret. One solution to the problem of turret layout was to put three or even four guns in each turret. Fewer turrets meant the ship could be shorter, or could devote more space to machinery. On the other hand, it meant that in the event of an enemy shell destroying one turret, a higher proportion of the main armament would be out of action. The risk of the blast waves from each gun barrel interfering with others in the same turret reduced the rate of fire from the guns somewhat. The first nation to adopt the triple turret was Italy, in the Script error: No such module "WPSHIPS utilities".Script error: No such module "Check for unknown parameters"., soon followed by Russia with the Script error: No such module "WPSHIPS utilities".,Template:Sfn the Austro-Hungarian Script error: No such module "WPSHIPS utilities"., and the US Script error: No such module "WPSHIPS utilities".. British Royal Navy battleships did not adopt triple turrets until after the First World War, with the Script error: No such module "WPSHIPS utilities"., and Japanese battleships not until the late-1930s Script error: No such module "WPSHIPS utilities".. Several later designs used quadruple turrets, including the British Script error: No such module "WPSHIPS utilities". and French Script error: No such module "WPSHIPS utilities"..
Main armament power and calibre
Rather than try to fit more guns onto a ship, it was possible to increase the power of each gun. This could be done by increasing either the calibre of the weapon and hence the weight of shell, or by lengthening the barrel to increase muzzle velocity. Either of these offered the chance to increase range and armour penetration.Template:Sfn
Both methods offered advantages and disadvantages, though in general greater muzzle velocity meant increased barrel wear. As guns fire, their barrels wear out, losing accuracy and eventually requiring replacement. At times, this became problematic; the US Navy seriously considered stopping practice firing of heavy guns in 1910 because of the wear on the barrels.Template:Sfn The disadvantages of guns of larger calibre are that guns and turrets must be heavier; and heavier shells, which are fired at lower velocities, require turret designs that allow a larger angle of elevation for the same range. Heavier shells have the advantage of being slowed less by air resistance, retaining more penetrating power at longer ranges.Template:Sfn
Different navies approached the issue of calibre in different ways. The German navy, for instance, generally used a lighter calibre than the equivalent British ships, e.g. 12-inch calibre when the British standard was Script error: No such module "convert".. Because German metallurgy was superior, the German 12-inch gun had better shell weight and muzzle velocity than the British 12-inch; and German ships could afford more armour for the same vessel weight because the German 12-inch guns were lighter than the 13.5-inch guns the British required for comparable effect.Template:Sfn
Over time the calibre of guns tended to increase. In the Royal Navy, the Orion class, launched 1910, had ten 13.5-inch guns, all on the centreline; the Queen Elizabeth class, launched in 1913, had eight Script error: No such module "convert". guns. In all navies, fewer guns of larger calibre came to be used. The smaller number of guns simplified their distribution, and centreline turrets became the norm.Template:Sfn
A further step change was planned for battleships designed and laid down at the end of World War I. The Japanese Script error: No such module "WPSHIPS utilities".s in 1917 carried Script error: No such module "convert". guns, which was quickly matched by the US Navy's Script error: No such module "WPSHIPS utilities".. Both the United Kingdom and Japan were planning battleships with Script error: No such module "convert". armament, in the British case the Script error: No such module "WPSHIPS utilities".. The Washington Naval Treaty concluded on 6 February 1922 and ratified later limited battleship guns to not more than Script error: No such module "convert". calibre,Template:Sfn and these heavier guns were not produced.Template:Sfn
The only battleships to break the limit were the Japanese Yamato class, begun in 1937 (after the treaty expired), which carried Template:Cvt main guns.Template:Sfn By the middle of World War II, the United Kingdom was making use of Template:Cvt guns kept as spares for the Script error: No such module "WPSHIPS utilities". to arm the last British battleship, Script error: No such module "WPSHIPS utilities"..Template:Sfn
Some World War II-era designs were drawn up proposing another move towards gigantic armament. The German H-43 and H-44 designs proposed Script error: No such module "convert". guns, and there is evidence Hitler wanted calibres as high as Script error: No such module "convert".;Template:Sfn the Japanese 'Super Yamato' design also called for 20-inch guns.Template:Sfn None of these proposals went further than very preliminary design work.
Secondary armament
The first dreadnoughts tended to have a very light secondary armament intended to protect them from torpedo boats. Dreadnought carried 12-pounder guns; each of her twenty-two 12-pounders could fire at least 15 rounds a minute at any torpedo boat making an attack.Template:Sfn The South Carolinas and other early American dreadnoughts were similarly equipped.Template:Sfn At this stage, torpedo boats were expected to attack separately from any fleet actions. Therefore, there was no need to armour the secondary gun armament, or to protect the crews from the blast effects of the main guns. In this context, the light guns tended to be mounted in unarmoured positions high on the ship to minimize weight and maximize field of fire.Template:Sfn
Within a few years, the principal threat was from the destroyer—larger, more heavily armed, and harder to destroy than the torpedo boat. Since the risk from destroyers was very serious, it was considered that one shell from a battleship's secondary armament should sink (rather than merely damage) any attacking destroyer. Destroyers, in contrast to torpedo boats, were expected to attack as part of a general fleet engagement, so it was necessary for the secondary armament to be protected against shell splinters from heavy guns, and the blast of the main armament. This philosophy of secondary armament was adopted by the German navy from the start; Nassau, for instance, carried twelve Template:Cvt and sixteen Template:Cvt guns, and subsequent German dreadnought classes followed this lead.Template:Sfn These heavier guns tended to be mounted in armoured barbettes or casemates on the main deck. The Royal Navy increased its secondary armament from 12-pounder to first Script error: No such module "convert". and then Script error: No such module "convert". guns, which were standard at the start of World War I;Template:Sfn the US standardized on 5-inch calibre for the war but planned 6-inch guns for the ships designed just afterwards.Template:Sfn
The secondary battery served several other roles. It was hoped that a medium-calibre shell might be able to score a hit on an enemy dreadnought's sensitive fire control systems. It was also felt that the secondary armament could play an important role in driving off enemy cruisers from attacking a crippled battleship.Template:Sfn
The secondary armament of dreadnoughts was, on the whole, unsatisfactory. A hit from a light gun could not be relied on to stop a destroyer. Heavier guns could not be relied on to hit a destroyer, as experience at the Battle of Jutland showed. The casemate mountings of heavier guns proved problematic; being low in the hull, they proved liable to flooding, and on several classes, some were removed and plated over. The only sure way to protect a dreadnought from destroyer or torpedo boat attack was to provide a destroyer squadron as an escort. After World War I the secondary armament tended to be mounted in turrets on the upper deck and around the superstructure. This allowed a wide field of fire and good protection without the negative points of casemates. Increasingly through the 1920s and 1930s, the secondary guns were seen as a major part of the anti-aircraft battery, with high-angle, dual-purpose guns increasingly adopted.Template:Sfn
Armour
Much of the displacement of a dreadnought was taken up by the steel plating of the armour. Designers spent much time and effort to provide the best possible protection for their ships against the various weapons with which they would be faced. Only so much weight could be devoted to protection, without compromising speed, firepower or seakeeping.Template:Sfn
Central citadel
The bulk of a dreadnought's armour was concentrated around the "armoured citadel". This was a box, with four armoured walls and an armoured roof, around the most important parts of the ship. The sides of the citadel were the "armoured belt" of the ship, which started on the hull just in front of the forward turret and ran to just behind the aft turret. The ends of the citadel were two armoured bulkheads, fore and aft, which stretched between the ends of the armour belt. The "roof" of the citadel was an armoured deck. Within the citadel were the boilers, engines, and the magazines for the main armament. A hit to any of these systems could cripple or destroy the ship. The "floor" of the box was the bottom of the ship's hull, and was unarmoured, although it was, in fact, a "triple bottom".Template:Sfn
The earliest dreadnoughts were intended to take part in a pitched battle against other battleships at ranges of up to Script error: No such module "convert".. In such an encounter, shells would fly on a relatively flat trajectory, and a shell would have to hit at or just about the waterline to damage the vitals of the ship. For this reason, the early dreadnoughts' armour was concentrated in a thick belt around the waterline; this was Script error: No such module "convert". thick in Dreadnought. Behind this belt were arranged the ship's coal bunkers, to further protect the engineering spaces.Template:Sfn In an engagement of this sort, there was also a lesser threat of indirect damage to the vital parts of the ship. A shell which struck above the belt armour and exploded could send fragments flying in all directions. These fragments were dangerous but could be stopped by much thinner armour than what would be necessary to stop an unexploded armour-piercing shell. To protect the innards of the ship from fragments of shells which detonated on the superstructure, much thinner steel armour was applied to the decks of the ship.Template:Sfn
The thickest protection was reserved for the central citadel in all battleships. Some navies extended a thinner armoured belt and armoured deck to cover the ends of the ship, or extended a thinner armoured belt up the outside of the hull. This "tapered" armour was used by the major European navies—the United Kingdom, Germany, and France. This arrangement gave some armour to a larger part of the ship; for the first dreadnoughts, when high-explosive shellfire was still considered a significant threat, this was useful. It tended to result in the main belt being very short, only protecting a thin strip above the waterline; some navies found that when their dreadnoughts were heavily laden, the armoured belt was entirely submerged.Template:Sfn The alternative was an "all or nothing" protection scheme, developed by the US Navy. The armour belt was tall and thick, but no side protection at all was provided to the ends of the ship or the upper decks. The armoured deck was also thickened. The "all-or-nothing" system provided more effective protection against the very-long-range engagements of dreadnought fleets and was adopted outside the US Navy after World War I.Template:Sfn
The design of the dreadnought changed to meet new challenges. For example, armour schemes were changed to reflect the greater risk of plunging shells from long-range gunfire, and the increasing threat from armour-piercing bombs dropped by aircraft. Later designs carried a greater thickness of steel on the armoured deck;Template:Sfn Yamato carried a Script error: No such module "convert". main belt, but a deck Script error: No such module "convert". thick.Template:Sfn
Underwater protection and subdivision
The final element of the protection scheme of the first dreadnoughts was the subdivision of the ship below the waterline into several watertight compartments. If the hull were holed—by shellfire, mine, torpedo, or collision—then, in theory, only one area would flood and the ship could survive. To make this precaution even more effective, many dreadnoughts had no doors between different underwater sections, so that even a surprise hole below the waterline need not sink the ship. There were still several instances where flooding spread between underwater compartments.Template:Sfn
The greatest evolution in dreadnought protection came with the development of the anti-torpedo bulge and torpedo belt, both attempts to protect against underwater damage by mines and torpedoes. The purpose of underwater protection was to absorb the force of a detonating mine or torpedo well away from the final watertight hull. This meant an inner bulkhead along the side of the hull, which was generally lightly armoured to capture splinters, separated from the outer hull by one or more compartments. The compartments in between were either left empty, or filled with coal, water or fuel oil.Template:Sfn
Propulsion
Dreadnoughts were propelled by two to four screw propellers.Template:Sfn Dreadnought herself, and all British dreadnoughts, had screw shafts driven by steam turbines. The first generation of dreadnoughts built in other nations used the slower triple-expansion steam engine which had been standard in pre-dreadnoughts.Template:Sfn
Turbines offered more power than reciprocating engines for the same volume of machinery.Template:SfnTemplate:Sfn This, along with a guarantee on the new machinery from the inventor, Charles Parsons, persuaded the Royal Navy to use turbines in Dreadnought.Template:Sfn It is often said that turbines had the additional benefits of being cleaner and more reliable than reciprocating engines.Template:Sfn By 1905, new designs of reciprocating engine were available which were cleaner and more reliable than previous models.Template:Sfn
Turbines also had disadvantages. At cruising speeds much slower than maximum speed, turbines were markedly less fuel-efficient than reciprocating engines. This was particularly important for navies which required a long range at cruising speeds—and hence for the US Navy, which was planning in the event of war to cruise across the Pacific and engage the Japanese in the Philippines.Template:Sfn
The US Navy experimented with turbine engines from 1908 in the Script error: No such module "WPSHIPS utilities"., but was not fully committed to turbines until the Script error: No such module "WPSHIPS utilities". in 1916. In the preceding Nevada class, one ship, Script error: No such module "WPSHIPS utilities"., received reciprocating engines, while Script error: No such module "WPSHIPS utilities". received geared turbines. The two Script error: No such module "WPSHIPS utilities".s of 1914 both received reciprocating engines, but all four ships of the Script error: No such module "WPSHIPS utilities". (1911) and Script error: No such module "WPSHIPS utilities". (1912) classes received turbines.
The disadvantages of the turbine were eventually overcome. The solution which eventually was generally adopted was the geared turbine, where gearing reduced the rotation rate of the propellers and hence increased efficiency. This solution required technical precision in the gears and hence was difficult to implement.Template:Sfn
One alternative was the turbo-electric drive where the steam turbine generated electrical power which then drove the propellers. This was particularly favoured by the US Navy, which used it for all dreadnoughts from late 1915–1922. The advantages of this method were its low cost, the opportunity for very close underwater compartmentalization, and good astern performance. The disadvantages were that the machinery was heavy and vulnerable to battle damage, particularly the effects of flooding on the electrics.Template:Efn
Turbines were never replaced in battleship design. Diesel engines were eventually considered by some powers, as they offered very good endurance and an engineering space taking up less of the length of the ship. They were also heavier, however, took up a greater vertical space, offered less power, and were considered unreliable.Template:SfnTemplate:Sfn
Fuel
The first generation of dreadnoughts used coal to fire the boilers which fed steam to the turbines. Coal had been in use since the first steam warships. One advantage of coal was that it is quite inert (in lump form) and thus could be used as part of the ship's protection scheme.Template:Sfn Coal also had many disadvantages. It was labour-intensive to pack coal into the ship's bunkers and then feed it into the boilers. The boilers became clogged with ash. Airborne coal dust and related vapours were highly explosive, possibly evidenced by the explosion of Script error: No such module "WPSHIPS utilities".. Burning coal as fuel also produced thick black smoke which gave away the position of a fleet and interfered with visibility, signaling, and fire control. In addition, coal was very bulky and had comparatively low thermal efficiency.
Oil-fired propulsion had many advantages for naval architects and officers at sea alike. It reduced smoke, making ships less visible. It could be fed into boilers automatically, rather than needing a complement of stokers to do it by hand. Oil has roughly twice the thermal content of coal. This meant that the boilers themselves could be smaller; and for the same volume of fuel, an oil-fired ship would have much greater range.Template:Sfn
These benefits meant that, as early as 1901, Fisher was pressing the advantages of oil fuel.Template:Sfn There were technical problems with oil-firing, connected with the different distribution of the weight of oil fuel compared to coal,Template:Sfn and the problems of pumping viscous oil.Template:Sfn The main problem with using oil for the battle fleet was that, with the exception of the United States, every major navy would have to import its oil. As a result, some navies adopted 'dual-firing' boilers which could use coal sprayed with oil; British ships so equipped, which included dreadnoughts, could even use oil alone at up to 60% power.Template:Sfn
The US had large reserves of oil, and the US Navy was the first to wholeheartedly adopt oil-firing, deciding to do so in 1910 and ordering oil-fired boilers for the Nevada class, in 1911.Template:Efn The United Kingdom was not far behind, deciding in 1912 to use oil on its own in the Queen Elizabeth class;Template:Sfn shorter British design and building times meant that Queen Elizabeth was commissioned before either of the Nevada-class vessels. The United Kingdom planned to revert to mixed firing with the subsequent Script error: No such module "WPSHIPS utilities"., at the cost of some speed—but Fisher, who returned to office in 1914, insisted that all the boilers should be oil-fired.Template:Sfn Other major navies retained mixed coal-and-oil firing until the end of World War I.Template:Sfn
Dreadnought building
Dreadnoughts developed as a move in an international battleship arms-race which had begun in the 1890s. The British Royal Navy had a big lead in the number of pre-dreadnought battleships, but a lead of only one dreadnought in 1906.Template:Sfn This has led to criticism that the British, by launching HMS Dreadnought, threw away a strategic advantage.Template:SfnTemplate:Sfn Most of the United Kingdom's naval rivals had already contemplated or even built warships that featured a uniform battery of heavy guns. Both the Japanese Navy and the US Navy ordered "all-big-gun" ships in 1904–1905, with Satsuma and South Carolina, respectively. Germany's Kaiser Wilhelm II had advocated a fast warship armed only with heavy guns since the 1890s. By securing a head start in dreadnought construction, the United Kingdom ensured its dominance of the seas continued.Template:Sfn
The battleship race soon accelerated once more, placing a great burden on the finances of the governments which engaged in it. The first dreadnoughts were not much more expensive than the last pre-dreadnoughts, but the cost per ship continued to grow thereafter.Template:Efn Modern battleships were the crucial element of naval power in spite of their price. Each battleship signalled national power and prestige, in a manner similar to the nuclear weapons of today.Template:Sfn Germany, France, Russia, Italy, Japan and Austria-Hungary all began dreadnought programmes, and second-rank powers—including the Ottoman Empire, Greece, Argentina, Brazil, and Chile—commissioned British, French, German, and American yards to build dreadnoughts for them.Template:Sfn
Anglo-German arms race
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The construction of Dreadnought coincided with increasing tension between the United Kingdom and Germany. Germany had begun building a large battlefleet in the 1890s, as part of a deliberate policy to challenge British naval supremacy. With the signing of the Entente Cordiale in April 1904, it became increasingly clear the United Kingdom's principal naval enemy would be Germany, which was building up a large, modern fleet under the "Tirpitz" laws. This rivalry gave rise to the two largest dreadnought fleets of the pre-1914 period.Template:Sfn
The first German response to Dreadnought was the Nassau class, laid down in 1907, followed by the Helgoland class in 1909. Together with two battlecruisers—a type for which the Germans had less admiration than Fisher, but which could be built under the authorization for armoured cruisers, rather than for capital ships—these classes gave Germany a total of ten modern capital ships built or building in 1909. The British ships were faster and more powerful than their German equivalents, but a 12:10 ratio fell far short of the 2:1 superiority the Royal Navy wanted to maintain.Template:Sfn
In 1909, the British Parliament authorized an additional four capital ships, holding out hope Germany would be willing to negotiate a treaty limiting battleship numbers. If no such solution could be found, an additional four ships would be laid down in 1910. Even this compromise meant, when taken together with some social reforms, raising taxes enough to prompt a constitutional crisis in the United Kingdom in 1909–1910. In 1910, the British eight-ship construction plan went ahead, including four Orion-class super-dreadnoughts, augmented by battlecruisers purchased by Australia and New Zealand. In the same period, Germany laid down only three ships, giving the United Kingdom a superiority of 22 ships to 13. The British resolve, as demonstrated by their construction programme, led the Germans to seek a negotiated end to the arms race. The Admiralty's new target of a 60% lead over Germany was near enough to Tirpitz's goal of cutting the British lead to 50%, but talks foundered on the question on whether to include British colonial battlecruisers in the count, as well as on non-naval matters like the German demands for recognition of ownership of Alsace-Lorraine.Template:Sfn
The dreadnought race stepped up in 1910 and 1911, with Germany laying down four capital ships each year and the United Kingdom five. Tension came to a head following the German Naval Law of 1912. This proposed a fleet of 33 German battleships and battlecruisers, outnumbering the Royal Navy in home waters. To make matters worse for the United Kingdom, the Imperial Austro-Hungarian Navy was building four dreadnoughts, while Italy had four and was building two more. Against such threats, the Royal Navy could no longer guarantee vital British interests. The United Kingdom was faced with a choice between building more battleships, withdrawing from the Mediterranean, or seeking an alliance with France. Further naval construction was unacceptably expensive at a time when social welfare provision was making calls on the budget. Withdrawing from the Mediterranean would mean a huge loss of influence, weakening British diplomacy in the region and shaking the stability of the British Empire. The only acceptable option, and the one recommended by First Lord of the Admiralty Winston Churchill, was to break with the policies of the past and to make an arrangement with France. The French would assume responsibility for checking Italy and Austria-Hungary in the Mediterranean, while the British would protect the north coast of France. In spite of some opposition from British politicians, the Royal Navy organised itself on this basis in 1912.Template:Sfn
In spite of these important strategic consequences, the 1912 Naval Law had little bearing on the battleship-force ratios. The United Kingdom responded by laying down ten new super-dreadnoughts in its 1912 and 1913 budgets—ships of the Queen Elizabeth and Revenge classes, which introduced a further step-change in armament, speed and protection—while Germany laid down only five, concentrating resources on its army.Template:Sfn
United States
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The American South Carolina-class battleships were the first all-big-gun ships completed by one of the United Kingdom's rivals. The planning for the type had begun before Dreadnought was launched. There is some speculation that informal contacts with sympathetic Royal Navy officials influenced the US Navy design,Template:Sfn but the American ship was very different.
The US Congress authorized the Navy to build two battleships, but of only 16,000 tons or lower displacement. As a result, the South Carolina class were built to much tighter limits than Dreadnought. To make the best use of the weight available for armament, all eight 12-inch guns were mounted along the centreline, in superfiring pairs fore and aft. This arrangement gave a broadside equal to Dreadnought, but with fewer guns; this was the most efficient distribution of weapons and proved a precursor of the standard practice of future generations of battleships. The principal economy of displacement compared to Dreadnought was in propulsion; South Carolina retained triple-expansion steam engines, and could manage only Script error: No such module "convert". compared to Script error: No such module "convert". for Dreadnought.Template:Sfn For this reason the later Script error: No such module "WPSHIPS utilities". were described by some as the US Navy's first dreadnoughts;Template:SfnTemplate:Sfn only a few years after their commissioning, the South Carolina class could not operate tactically with the newer dreadnoughts due to their low speed, and were forced to operate with the older pre-dreadnoughts.Template:SfnTemplate:Sfn
The two 10-gun, 20,500-ton ships of the Delaware class were the first US battleships to match the speed of British dreadnoughts, but their secondary battery was "wet" (suffering from spray) and their bow was low in the water. An alternative 12-gun 24,000-ton design had many disadvantages as well; the extra two guns and a lower casemate had "hidden costs"—the two wing turrets planned would weaken the upper deck, be almost impossible to adequately protect against underwater attack, and force magazines to be located too close to the sides of the ship.Template:SfnTemplate:Sfn
The US Navy continued to expand its battlefleet, laying down two ships in most subsequent years until 1920. The US continued to use reciprocating engines as an alternative to turbines until Nevada, laid down in 1912. In part, this reflected a cautious approach to battleship-building, and in part a preference for long endurance over high maximum speed owing to the US Navy's need to operate in the Pacific Ocean.Template:Sfn
Japan
With their victory in the Russo-Japanese War of 1904–1905, the Japanese became concerned about the potential for conflict with the US. The theorist Satō Tetsutarō developed the doctrine that Japan should have a battlefleet at least 70% the size of that of the US. This would enable the Japanese navy to win two decisive battles: the first early in a prospective war against the US Pacific Fleet, and the second against the US Atlantic Fleet which would inevitably be dispatched as reinforcements.Template:Sfn
Japan's first priorities were to refit the pre-dreadnoughts captured from Russia and to complete Satsuma and Script error: No such module "WPSHIPS utilities".Script error: No such module "Check for unknown parameters".. The Satsumas were designed before Dreadnought, but financial shortages resulting from the Russo-Japanese War delayed completion and resulted in their carrying a mixed armament, so they were known as "semi-dreadnoughts". These were followed by a modified Aki-type: Script error: No such module "WPSHIPS utilities".Script error: No such module "Check for unknown parameters". and Script error: No such module "WPSHIPS utilities".Script error: No such module "Check for unknown parameters". of the Kawachi-class. These two ships were laid down in 1909 and completed in 1912. They were armed with twelve 12-inch guns, but they were of two different models with differing barrel-lengths, meaning that they would have had difficulty controlling their fire at long ranges.Template:Sfn
In other countries
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Compared to the other major naval powers, France was slow to start building dreadnoughts, instead finishing the planned Danton class of pre-dreadnoughts, laying down five in 1907 and 1908. In September 1910 the first of the Script error: No such module "WPSHIPS utilities". was laid down, making France the eleventh nation to enter the dreadnought race.Template:Sfn In the Navy Estimates of 1911, Paul Bénazet asserted that from 1896 to 1911, France dropped from being the world's second-largest naval power to fourth; he attributed this to problems in maintenance routines and neglect.Template:Sfn The closer alliance with the United Kingdom made these reduced forces more than adequate for French needs.Template:Sfn
The Italian Regia Marina had received proposals for an all-big-gun battleship from Cuniberti well before Dreadnought was launched, but it took until 1909 for Italy to lay down one of its own. The construction of Dante Alighieri was prompted by rumours of Austro-Hungarian dreadnought-building. A further five dreadnoughts of the Script error: No such module "WPSHIPS utilities". and Script error: No such module "WPSHIPS utilities". classes followed as Italy sought to maintain its lead over Austria-Hungary. These ships remained the core of Italian naval strength until World War II. The subsequent Script error: No such module "WPSHIPS utilities". were suspended (and later cancelled) on the outbreak of World War I.Template:Sfn
In January 1909 Austro-Hungarian admirals circulated a document calling for a fleet of four dreadnoughts. A constitutional crisis in 1909–1910 meant no construction could be approved. In spite of this, shipyards laid down two dreadnoughts on a speculative basis—due especially to the energetic manipulations of Rudolf Montecuccoli, Chief of the Austro-Hungarian Navy—later approved along with an additional two. The resulting ships, all Tegetthoff class, were to be accompanied by a further four ships of the Script error: No such module "WPSHIPS utilities"., but these were cancelled on the Austro-Hungarian entry into World War I.Template:Sfn
In June 1909 the Imperial Russian Navy began construction of four Gangut dreadnoughts for the Baltic Fleet, and in October 1911, three more Script error: No such module "WPSHIPS utilities". dreadnoughts for the Black Sea Fleet were laid down. Of seven ships, only one was completed within four years of being laid down, and the Gangut ships were "obsolescent and outclassed" upon commissioning.Template:SfnTemplate:Sfn Taking lessons from Tsushima, and influenced by Cuniberti, they ended up more closely resembling slower versions of Fisher's battlecruisers than Dreadnought, and they proved badly flawed due to their smaller guns and thinner armour when compared with contemporary dreadnoughts.Template:SfnTemplate:Sfn
Spain commissioned three ships of the Script error: No such module "WPSHIPS utilities"., with the first laid down in 1909. The three ships, the smallest dreadnoughts ever constructed, were built in Spain with British assistance; construction on the third ship, Script error: No such module "WPSHIPS utilities".Script error: No such module "Check for unknown parameters"., took nine years from its laying down date to completion because of non-delivery of critical material, especially armament, from the United Kingdom.Template:SfnTemplate:Sfn
Brazil was the third country to begin construction on a dreadnought. It ordered three dreadnoughts from the United Kingdom which would mount a heavier main battery than any other battleship afloat at the time (twelve 12-inch/45 calibre guns). Two were completed for Brazil: Script error: No such module "WPSHIPS utilities".Script error: No such module "Check for unknown parameters". was laid down on by Armstrong (Elswick) on 17 April 1907, and its sister, Script error: No such module "WPSHIPS utilities".Script error: No such module "Check for unknown parameters"., followed thirteen days later at Vickers (Barrow). Although many naval journals in Europe and the US speculated that Brazil was really acting as a proxy for one of the naval powers and would hand the ships over to them as soon as they were complete, both ships were commissioned into the Brazilian Navy in 1910.Template:SfnTemplate:SfnTemplate:Sfn The third ship, Rio de Janeiro, was nearly complete when rubber prices collapsed and Brazil could not afford her. She was sold to the Ottoman Empire in 1913.
The Netherlands intended by 1912 to replace its fleet of pre-dreadnought armoured ships with a modern fleet composed of dreadnoughts. After a Royal Commission proposed the purchase of nine dreadnoughts in August 1913, there were extensive debates over the need for such ships and—if they were necessary—over the actual number needed. These lasted into August 1914, when a bill authorizing funding for four dreadnoughts was finalized, but the outbreak of World War I halted the ambitious plan.Template:SfnTemplate:Sfn
The Ottoman Empire ordered two dreadnoughts from British yards, Reshadiye in 1911 and Fatih Sultan Mehmed in 1914. Reshadiye was completed, and in 1913, the Ottoman Empire also acquired a nearly-completed dreadnought from Brazil, which became Sultan Osman I. At the start of World War I, Britain seized the two completed ships for the Royal Navy. Reshadiye and Sultan Osman I became Script error: No such module "WPSHIPS utilities". and Agincourt respectively. (Fatih Sultan Mehmed was scrapped.) This greatly offended the Ottoman Empire. When two German warships, the battlecruiser Template:SMS and the cruiser Template:SMS, became trapped in Ottoman territory after the start of the war, Germany "gave" them to the Ottomans. (They remained German-crewed and under German orders.) The British seizure and the German gift proved important factors in the Ottoman Empire joining the Central Powers in October 1914.Template:Sfn
Greece had ordered the dreadnought Script error: No such module "WPSHIPS utilities".Script error: No such module "Check for unknown parameters". from Germany, but work stopped on the outbreak of war. The main armament for the Greek ship had been ordered in the United States, and the guns consequently equipped a class of British monitors. In 1914 Greece purchased two pre-dreadnoughts from the United States Navy, renaming them Script error: No such module "WPSHIPS utilities".Script error: No such module "Check for unknown parameters". and Script error: No such module "WPSHIPS utilities".Script error: No such module "Check for unknown parameters". in Royal Hellenic Navy service.Template:Sfn
The Conservative Party-dominated House of Commons of Canada passed a bill purchasing three British dreadnoughts for $35 million to use in the Canadian Naval Service, but the measure was defeated in the Liberal Party-dominated Senate of Canada. As a result, the country's navy was unprepared for World War I.[1]
Super-dreadnoughts
Within five years of the commissioning of Dreadnought, a new generation of more powerful "super-dreadnoughts" was being built. The British Orion class jumped an unprecedented 2,000 tons in displacement, introduced the heavier 13.5-inch (343 mm) gun, and placed all the main armament on the centreline (hence with some turrets superfiring over others). In the four years between Dreadnought and Orion, displacement had increased by 25%, and weight of broadside (the weight of ammunition that can be fired on a single bearing in one salvo) had doubled.Template:Sfn
British super-dreadnoughts were joined by those built by other nations. The US Navy New York class, laid down in 1911, carried 14-inch (356 mm) guns in response to the British move and this calibre became standard. In Japan, two Script error: No such module "WPSHIPS utilities". super-dreadnoughts were laid down in 1912, followed by the two Script error: No such module "WPSHIPS utilities". ships in 1914, with both classes carrying twelve 14-inch (356 mm) guns. In 1917, the Nagato class was ordered, the first super-dreadnoughts to mount 16-inch guns, making them arguably the most powerful warships in the world. All were increasingly built from Japanese rather than from imported components. In France, the Courbets were followed by three super-dreadnoughts of the Script error: No such module "WPSHIPS utilities"., carrying Script error: No such module "convert". guns; another five Script error: No such module "WPSHIPS utilities".s were canceled on the outbreak of World War I.Template:Sfn The aforementioned Brazilian dreadnoughts sparked a small-scale arms race in South America, as Argentina and Chile each ordered two super-dreadnoughts from the US and the United Kingdom, respectively. Argentina's Script error: No such module "WPSHIPS utilities".Script error: No such module "Check for unknown parameters". and Script error: No such module "WPSHIPS utilities".Script error: No such module "Check for unknown parameters". had a main armament equaling that of their Brazilian counterparts, but were much heavier and carried thicker armour. The British purchased both of Chile's battleships on the outbreak of the First World War. One, Script error: No such module "WPSHIPS utilities".Script error: No such module "Check for unknown parameters"., was later repurchased by Chile.Template:SfnTemplate:Sfn
Later British super-dreadnoughts, principally the Queen Elizabeth class, dispensed with the midships turret, freeing weight and volume for larger, oil-fired boilers. The new 15-inch (381 mm) gun gave greater firepower in spite of the loss of a turret, and there were a thicker armour belt and improved underwater protection. The class had a Script error: No such module "convert". design speed, and they were considered the first fast battleships.Template:Sfn
The design weakness of super-dreadnoughts, which distinguished them from post-1918 vessels, was armour disposition. Their design emphasized the vertical armour protection needed in short-range battles, where shells would strike the sides of the ship, and assumed that an outer plate of armour would detonate any incoming shells so that crucial internal structures such as turret bases needed only light protection against splinters. This was in spite of the ability to engage the enemy at Script error: No such module "convert"., ranges where the shells would descend at angles of up to thirty degrees ("plunging fire") and so could pierce the deck behind the outer plate and strike the internal structures directly. Post-war designs typically had 5 to 6 inches (130 to 150 mm) of deck armour laid across the top of single, much thicker vertical plates to defend against this. The concept of zone of immunity became a major part of the thinking behind battleship design. Lack of underwater protection was also a weakness of these pre-World War I designs, which originated before the use of torpedoes became widespread.Template:Sfn
The United States Navy designed its 'Standard-type battleships', beginning with the Nevada class, with long-range engagements and plunging fire in mind; the first of these was laid down in 1912, four years before the Battle of Jutland taught the dangers of long-range fire to European navies. Important features of the standard battleships were "all or nothing" armour and "raft" construction—based on a design philosophy which held that only those parts of the ship worth giving the thickest possible protection were worth armouring at all, and that the resulting armoured "raft" should contain enough reserve buoyancy to keep the entire ship afloat in the event the unarmoured bow and stern were thoroughly punctured and flooded. This design proved its worth in the 1942 Naval Battle of Guadalcanal, when an ill-timed turn by Script error: No such module "WPSHIPS utilities". silhouetted her to Japanese guns. In spite of receiving 26 hits, her armoured raft remained untouched and she remained both afloat and operational at the end of action.Template:Sfn
In action
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The First World War saw no decisive engagements between battlefleets to compare with Tsushima. The role of battleships was marginal to the land fighting in France and Russia; it was equally marginal to the German war on commerce (Handelskrieg) and the Allied blockade.Template:Sfn
By virtue of geography, the Royal Navy could keep the German High Seas Fleet confined to the North Sea with relative ease, but was unable to break the German superiority in the Baltic Sea. Both sides were aware, because of the greater number of British dreadnoughts, that a full fleet engagement would likely result in a British victory. The German strategy was, therefore, to try to provoke an engagement on favourable terms: either inducing a part of the Grand Fleet to enter battle alone, or to fight a pitched battle near the German coast, where friendly minefields, torpedo boats, and submarines could even the odds.Template:Sfn
The first two years of war saw conflict in the North Sea limited to skirmishes by battlecruisers at the Battle of Heligoland Bight and Battle of Dogger Bank, and raids on the English coast. In May 1916, a further attempt to draw British ships into battle on favourable terms resulted in a clash of the battlefleets on 31 May to 1 June in the indecisive Battle of Jutland.Template:Sfn
In the other naval theatres, there were no decisive pitched battles. In the Black Sea, Russian and Turkish battleships skirmished, but nothing more. In the Baltic Sea, action was largely limited to convoy raiding and the laying of defensive minefields.Template:Sfn The Adriatic was in a sense the mirror of the North Sea: the Austro-Hungarian dreadnought fleet was confined to the Adriatic Sea by the Italian, British and French blockade but bombarded the Italians on several occasions, notably at Ancona in 1915.Template:Sfn And in the Mediterranean, the most important use of battleships was in support of the amphibious assault at Gallipoli.Template:Sfn
The course of the war illustrated the vulnerability of battleships to cheaper weapons. In September 1914, the U-boat threat to capital ships was demonstrated by successful attacks on British cruisers, including the sinking of three elderly British armoured cruisers by the German submarine Template:SMU in less than an hour. Mines continued to prove a threat when a month later the recently commissioned British super-dreadnought Script error: No such module "WPSHIPS utilities". struck one and sank in 1914. By the end of October, British strategy and tactics in the North Sea had changed to reduce the risk of U-boat attack.Template:Sfn Jutland was the only major clash of dreadnought battleship fleets in history, and the German plan for the battle relied on U-boat attacks on the British fleet; and the escape of the German fleet from the superior British firepower was effected by the German cruisers and destroyers closing on British battleships, causing them to turn away to avoid the threat of torpedo attack. Further near-misses from submarine attacks on battleships led to growing concern in the Royal Navy about the vulnerability of battleships.Template:Sfn
For the German part, the High Seas Fleet determined not to engage the British without the assistance of submarines, and since submarines were more needed for commerce raiding, the fleet stayed in port for much of the remainder of the war.Template:Sfn Other theatres showed the role of small craft in damaging or destroying dreadnoughts. The two Austrian dreadnoughts lost in November 1918 were casualties of Italian torpedo boats and frogmen.
Battleship building from 1914 onwards
World War I
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The outbreak of World War I largely halted the dreadnought arms race as funds and technical resources were diverted to more pressing priorities. The foundries which produced battleship guns were dedicated instead to the production of land-based artillery, and shipyards were flooded with orders for small ships. The weaker naval powers engaged in the Great War—France, Austria-Hungary, Italy and Russia—suspended their battleship programmes entirely. The United Kingdom and Germany continued building battleships and battlecruisers but at a reduced pace.Template:Sfn
In the United Kingdom, Fisher returned to his old post as First Sea Lord; he had been created 1st Baron Fisher in 1909, taking the motto Fear God and dread nought. This, combined with a government moratorium on battleship building, meant a renewed focus on the battlecruiser. Fisher resigned in 1915 following arguments about the Gallipoli Campaign with the First Lord of the Admiralty, Winston Churchill.
The final units of the Revenge and Queen Elizabeth classes were completed, though the last two battleships of the Revenge class were re-ordered as battlecruisers of the Script error: No such module "WPSHIPS utilities".. Fisher followed these ships with the even more extreme Script error: No such module "WPSHIPS utilities".; very fast and heavily armed ships with minimal, Script error: No such module "convert". armour, called 'large light cruisers' to get around a Cabinet ruling against new capital ships. Fisher's mania for speed culminated in his suggestion for Script error: No such module "WPSHIPS utilities"., a mammoth, lightly armoured battlecruiser.Template:Sfn
In Germany, two units of the pre-war Script error: No such module "WPSHIPS utilities". were gradually completed, but the other two laid down were still unfinished by the end of the War. Template:SMS, also laid down before the start of the war, was completed in 1917. The Script error: No such module "WPSHIPS utilities"., designed in 1914–1915, were begun but never finished.Template:Sfn
Post-war
Script error: No such module "Labelled list hatnote". In spite of the lull in battleship building during the World War, the years 1919–1922 saw the threat of a renewed naval arms race between the United Kingdom, Japan, and the US. The Battle of Jutland exerted a huge influence over the designs produced in this period. The first ships which fit into this picture are the British Script error: No such module "WPSHIPS utilities"., designed in 1916. Jutland finally persuaded the Admiralty that lightly armoured battlecruisers were too vulnerable, and therefore the final design of the Admirals incorporated much-increased armour, increasing displacement to 42,000 tons. The initiative in creating the new arms race lay with the Japanese and United States navies. The United States Naval Appropriations Act of 1916 authorized the construction of 156 new ships, including ten battleships and six battlecruisers. For the first time, the United States Navy was threatening the British global lead.Template:Sfn This programme was started slowly (in part because of a desire to learn lessons from Jutland), and never fulfilled entirely. The new American ships (the Colorado-class battleships, South Dakota-class battleships and Script error: No such module "WPSHIPS utilities".s), took a qualitative step beyond the British Queen Elizabeth class and Admiral classes by mounting 16-inch guns.Template:Sfn
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At the same time, the Imperial Japanese Navy was finally gaining authorization for its 'eight-eight battlefleet'. The Nagato class, authorized in 1916, carried eight 16-inch guns like their American counterparts. The next year's naval bill authorized two more battleships and two more battlecruisers. The battleships, which became the Script error: No such module "WPSHIPS utilities"., were to carry ten 16-inch guns. The battlecruisers, the Script error: No such module "WPSHIPS utilities"., also carried ten 16-inch guns and were designed to be capable of 30 knots, capable of beating both the British Admiral- and the US Navy's Lexington-class battlecruisers.Template:Sfn
Matters took a further turn for the worse in 1919 when Woodrow Wilson proposed a further expansion of the United States Navy, asking for funds for an additional ten battleships and six battlecruisers in addition to the completion of the 1916 programme (the Script error: No such module "WPSHIPS utilities". not yet started). In response, the Diet of Japan finally agreed to the completion of the 'eight-eight fleet', incorporating a further four battleships.Template:Sfn These ships, the Script error: No such module "WPSHIPS utilities". would displace 43,000 tons; the next design, the Script error: No such module "WPSHIPS utilities"., would have carried Script error: No such module "convert". guns.Template:Sfn Many in the Japanese navy were still dissatisfied, calling for an 'eight-eight-eight' fleet with 24 modern battleships and battlecruisers.
The British, impoverished by World War I, faced the prospect of slipping behind the US and Japan. No ships had been begun since the Admiral class, and of those only Script error: No such module "WPSHIPS utilities". had been completed. A June 1919 Admiralty plan outlined a post-war fleet with 33 battleships and eight battlecruisers, which could be built and sustained for £171 million a year (approximately £Template:Formatprice today); only £84 million was available. The Admiralty then demanded, as an absolute minimum, a further eight battleships.Template:Sfn These would have been the G3 battlecruisers, with 16-inch guns and high speed, and the N3-class battleships, with Script error: No such module "convert". guns.Template:Sfn Its navy severely limited by the Treaty of Versailles, Germany did not participate in this three-way naval building competition. Most of the German dreadnought fleet was scuttled at Scapa Flow by its crews in 1919; the remainder were handed over as war prizes.Template:EfnTemplate:Sfn
The major naval powers avoided the cripplingly expensive expansion programmes by negotiating the Washington Naval Treaty in 1922. The Treaty laid out a list of ships, including most of the older dreadnoughts and almost all the newer ships under construction, which were to be scrapped or otherwise put out of use. It furthermore declared a 'building holiday' during which no new battleships or battlecruisers were to be laid down, save for the British Nelson class. The ships which survived the treaty, including the most modern super-dreadnoughts of all three navies, formed the bulk of international capital ship strength through the interwar period and, with some modernisation, into World War II. The ships built under the terms of the Washington Treaty (and subsequently the London Treaties in 1930 and 1936) to replace outdated vessels were known as treaty battleships.Template:Sfn
From this point on, the term 'dreadnought' became less widely used. Most pre-dreadnought battleships were scrapped or hulked after World War I,Template:Efn so the term 'dreadnought' became less necessary.
Notes
Footnotes
Citations
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References
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Further reading
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- Script error: No such module "citation/CS1". Originally Classified and in two volumes.
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External links
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