Battleship

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This article is about the type of warship. See also Battleship (game).

In naval warfare, battleships were the most heavily armed and armored warships afloat. They were designed to engage enemy warships with direct or indirect fire from an arsenal of main guns. As a secondary role, they were capable of bombarding targets on and near an enemy coast to support infantry assaults. In the mid-20th century they became obsolete by the greater range and striking power of the aircraft carrier, although some continued to be used for shore bombardment and as missile platforms until the late 1990s.

After the development of the line of battle tactic in the mid 17th Century, ships expected to form part of this line were called ships of the line of battle or line of battle ships - battleships for short. Eventually these were divided into first-, second- and third-rates. Fourth and fifth-rates were frigates, and sixth-rates were sloops (strictly "sloops-of-war"). These vessels were used for communications and reconnaissance and did not usually fight in fleet encounters. Although this scheme worked well in the 18th Century, from the middle of the 19th Century, the terminology became confused by the introduction of large steam-powered armoured single-deck ships with a small number of very powerful guns. These were technically frigates because they had a single gundeck, but were designed to fight as ships of the line.

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Early battleships

A 16th century Spanish galleon

The origin of battleships can be found in the "great ships", such as galleons, which had existed in several European countries since around 1410. These large Western ships were themselves preceded by the great sailing junks of the Chinese Empire, described by various travelers to the East such as Marco Polo and Niccolò Da Conti, and used during the travels of Admiral Zheng He in the early 15th century, and by the various cogs and busses in the Baltic Sea region, and galleasses and mahons in the Mediterranean Sea.

Following the development of the line of battle, first used with ships of the line by England, the Netherlands and Spain in the early 17th century, battleships became for over 300 years the main instrument of naval warfare by European countries, allowing nations such as the Netherlands, Spain, France and, most notably, Britain, to create and maintain trade-based overseas empires.

In the 17th century fleets could consist of almost a hundred ships of various sizes, but by the mid 18th century, ship-of-the-line design had settled on a few standard types: older two-deckers (i.e. with two complete decks of guns firing through side ports) of 50 guns (which were too weak for the battle-line but could be used to escort convoys), two-deckers of between 64 and 90 guns which formed the main part of the fleet, and larger three- or even four-deckers with 98–144 guns which were used as admirals' command ships. Fleets consisting of perhaps 10–25 of these ships kept control of the sea-lanes for major European naval powers whilst restricting sea-borne trade of enemies.

Although Spain, the Netherlands and France built huge fleets, they were rarely able to match the skill of British naval crews. British crews excelled, in part, because they spent much more time at sea, were generally better fed, and were generally more competent as the Royal Navy based promotion on merit rather than lordship. In addition, with no large land army to support, the United Kingdom was always free to devote more resources to her prized navy.

In the North Sea and North Atlantic Ocean the fleets of Britain, the Netherlands, France and Spain fought numerous battles in support of their land armies and to deny the enemy access to trade routes. In the Baltic Sea, Sweden, Denmark, the Netherlands and Russia did likewise, while in the Mediterranean Sea Russia, Ottoman Turkey, Venice, Britain and France battled for control of the Balkans, Egypt and Malta.

HMS Howe in the late 19th Century
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HMS Howe in the late 19th Century

During the Napoleonic Wars, Great Britain defeated Europe's major naval powers at battles such as at Copenhagen and Trafalgar, allowing the Royal Navy to establish itself as the world's primary naval power. Spain, Denmark and Portugal largely stopped building battleships during this time under duress from the British. Britain emerged from the Napoleonic Wars in 1815 with the largest and most professional navy in the world, composed of hundreds of wooden, sail-powered ships of all sizes and classes. The Royal Navy had complete naval supremacy across the world following the Napoleonic Wars, and demonstrated this superiority during the Crimean War in the 1850s.

Industrial age

However, from the early 1840s onwards, several technological innovations started to revolutionize the conception of warships. Reliable steam power made warships much more maneuverable, and became the obvious choice against sail as soon as the issue of long-distance travel and re-coaling was solved. Naval guns with exploding shells, capable of penetrating wooden hulls and setting them on fire, were invented by the French Admiral Henri-Joseph Paixhans, and adopted from 1841 by the navies of France, England, Russia and the United States. Their efficacy, largely proven during the Crimean War in turn led to the development of the first ironclad warships in 1859, and the subsequent generalization of iron hulls. In the 1860s major naval powers built "armoured frigate" type ships, which, although having only one gundeck, were used as battleships, not frigates. The first steel-hulled ships then appeared in 1876, with launch of the French Redoutable.

Explosive-shell naval guns

Although explosive shells had long been in use in ground warfare (in howitzers and mortars), they could only be fired at high angles in elliptical trajectories and with relatively low velocities, which rendered them unpractical for marine combat. Naval combat essentially requires flat-trajectory guns in order to have some odds of hitting the target, so that naval warfare had consisted for centuries in encounters between flat-trajectory cannons using inert cannonballs, which a wooden boat could rather easily absorb.

The French Admiral Paixhans developed a delaying mecanism which, for the first time, allowed shells to be fired safely in high-powered flat-trajectory guns. The effect of explosive shells hitting wooden hulls and setting them aflame was devastating. The first Paixhans guns was founded in 1841. In the 1840s, France, England, Russia and the United States had adopted the new naval guns. Their effect was demonstrated when the Russian Navy used the guns at the Battle of Sinop in 1853, anihilating a Turkish fleet with their Paixhans explosive shell guns.

From 1854, further improvements were made by the American John A. Dahlgren, which were extensively put to use during the American Civil War (1861-1865).

Ironclads

FS La Gloire, the first ocean-going ironclad battleship (1858)
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FS La Gloire, the first ocean-going ironclad battleship (1858)

Britain's naval supremacy was further challenged in 1859 when France launched Gloire, the first ocean-going ironclad battleship. Although made of wood and reliant on sail for most of her journeys, Gloire was fitted with a propeller and her wooden hull was protected by a layer of thick iron armour. This ship instantly rendered all British battleships obsolete, as British vessels would easily be outmaneuvered and their cannonballs would simply bounce off Gloire's revolutionary metal armour. Britain sparked a massive naval arms race by launching the much-superior Warrior in 1860. With the Royal Navy's "wooden walls" rendered obsolete by the new breed of ironclad ships, other world powers seized the opportunity to build high-tech warships to rival British vessels, and major warship construction programmes began in earnest in Britain, France, Italy, Austria-Hungary, Russia and Prussia/Germany. Desperate to maintain naval superiority (under the premise that the Royal Navy had to outnumber the world's next two largest navies combined), the British government spent more and more money on up-to-the-minute warship designs.

Turrets and rifled guns

Soon after, however, turreted guns began to be used, following the designs of the shipwright John Ericsson. This was largely necessitated by the introduction of paddle wheels, which prevented ships from displaying lines of guns along their sides. Turrets allowed the guns to fire on both beams, so fewer guns needed to be carried. In the 1870s the armoured frigate type, with its side-ported guns, dropped out of fashion. Armoured cruisers, which were first built with broadside guns, soon adopted turrets as well. The transition from smoothbore cannon to Rifled Muzzle Loaders and Rifled Breech Loaders greatly affected the design of the ships. The fear that an enemy naval power could launch an attack with ships that were only slightly superior became a major factor in British defence policy during the late 19th Century. Warship technology was advancing so rapidly from 1865-1906 that new battleships were often rendered obsolete within a few years of construction. This created a huge financial strain - by 1870, the British government was spending a staggering 37% of its annual national budget on the construction of new battleships.

Brown powder

Various technological advances affected the naval arms race. The development of brown powder was a critical step in the creation of the modern battleship—black powder combusted rapidly, and therefore useful cannons required relatively short barrels, otherwise the friction of the barrel would slow down the shell accelerated by the violent expansion of the powder. The sharpness of the black powder explosion also meant that guns were subjected to extreme material stress. Brown powder, which combusted less rapidly, allowed longer barrels, which allowed greater accuracy; and because it expanded less sharply than black powder, it put less strain on the insides of the barrel, allowing guns to last longer and to be manufactured to tighter tolerances. This permitted a battleship to mount fewer guns to greater effect than its predecessors.

Design experiments

From 1870 to 1890 battleship design was in a wildly experimental phase, as different navies experimented with different turret arrangements, sizes and numbers, with each new design rendering the previous ones largely obsolete overnight. Bizarre experimental warships appeared—a series of German warships were built with dozens of small guns to repel smaller craft, a British vessel was built using a turbine engine (which ironically became the main propulsion system for all ships), whilst an entire class of French battleships—known as "fierce-face"—were designed to intimidate enemy crews through their sheer ugliness (?). The main battleship nations during this period were Britain, France and Russia, plus newcomers Germany, Austria-Hungary and Italy, while Turkey and Spain built small numbers of armoured frigates and cruisers, and Sweden, Denmark, Norway and the Netherlands built smaller "coastal battleships" (pantserschip) of up to 5,000 tons.

Pre-Dreadnought battleship Mikasa, flagship of the Japanese fleet at the Battle of Tsushima, in 1905
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Pre-Dreadnought battleship Mikasa, flagship of the Japanese fleet at the Battle of Tsushima, in 1905

The first warships resembling modern battleships were built in Britain around 1870 with the Devastation class of low-freeboard turret ships, a few years after the first battle between ironclad warships (the USS Monitor and CSS Virginia at Hampton Roads, Virginia). However, it was not until around 1880 that battleship design became stable enough for larger classes to be built to a single design. Later in the period battleship displacement grew rapidly as more powerful engines and more armour and minor guns were added. Many experimental ships were built, but all navies finally converged on a design known after-the-fact as Pre-dreadnoughts, which were battleships built in the period 1890–1905 and usually having a displacement of 9,000–16,000 tons, a speed of 13–18 knots, and an armament of four "big guns", usually 12" (305mm) in bore diameter, in two centreline turrets, fore and aft, plus secondary and smaller guns. Turrets, armour plate, and steam engines were all improved over the years, and torpedo tubes were introduced. However, events in 1906 sparked off another naval arms race.

"All-big-guns"

In 1905 the Russian Navy was decisively defeated at the Battle of Tsushima by the modern Japanese Navy, which was equipped with the latest battleships. The events of the battle revealed to the world that only the biggest guns mattered in modern naval battles. As secondary guns grew in size, spotting gun splashes (and aiming) between main and secondary guns became problematic. The Battle of Tsushima demonstrates that damage from the main guns was much greater than secondary guns. In addition, the battle demonstrated the practicability of gun battles beyond the range of secondary guns (12,000 yards).

The IJN's Satsuma, the first ship to be designed and laid down as an "all-big-gun" battleship
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The IJN's Satsuma, the first ship to be designed and laid down as an "all-big-gun" battleship

The United States, Japan, and Britain all realized this and launched plans for an all-big-gun ships. The Imperial Japanese Navy's Satsuma was the first battleship in the world to be designed and laid down as an all-big-gun battleship, although gun shortages only allowed her to be equipped with four of the twelve 12-in guns that had been planned.

Britain, lead by Head of Admiralty Jacky Fisher, took the lead and completed Dreadnought in only 11 months. Dreadnought carried ten 12-inch guns in 5 turrets, and was powered not by reciprocating engines, but by revolutionary (for large ships) steam turbines. Previous ships powered by reciprocating steam engines were, in practice, limited by engine vibration to 18 knots. Even at that speed vibration limited aiming ability and the engines wore out quickly. Dreadnought had a top speed of 21 knots. It was the first of the new breed of "all-big-gun" battleships. Major naval powers raced to build their own dreadnoughts to avoid being overtaken by Britain. The Royal Navy, which demanded a navy equal to any two of its competitors combined, began demanding increasingly unaffordable sums from the government for dreadnought construction. The government, already burdened with financial crises caused by the military catastrophe of the Second Boer War and a voting population demanding more government expenditure on welfare and public works, could not afford to squander precious money on even more dreadnoughts, allowing rival navies (particularly the Kaiserliche Marine) to catch up with Britain's battleship forces. Even after Dreadnought's commission, battleships continued to grow in size, guns, and technical proficiency as countries vied to have the best ships. By 1914 Dreadnought was outmoded. This expensive arms race would not end until the Washington Naval Treaty of 1922. This treaty limited the number and size of battleships that each major nation could possess.

The Dreadnought Era

HMS Dreadnought
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HMS Dreadnought

With advances in gun laying and aiming, engagement ranges had increased from 1000 yards or less to 6000 yards or more over the previous few years, in part as a consequence of the devastating, but short-ranged firepower of the recently invented torpedo. This had caused a move away from mixed calibre armament, as each calibre required a different aiming calibration, something which unnecessarily complicated gunnery techniques. At longer ranges, the higher maximum rate of fire of the smaller calibres was negated by the need to wait for shell splashes before firing the next salvo. This negated the advantage of small-calibre guns; heavier weapons were no faster, but packed a much greater punch.

Partially as a consequence of this new philosophy, and partially as a consequence of its powerful new turbine engine, Dreadnought dispensed completely with the smaller calibre secondary armament carried by her immediate predecessors, allowing her to carry more heavy caliber guns than any other battleship built up to that time. She carried ten 12-inch guns mounted in five turrets; three along the centreline and two on the wings, giving her twice the broadside of anything else afloat. The first large warship equipped with steam turbines, she could make 21 knots in a calm sea, allowing her to outrun existing battleships (typical speed 18kts). Her armor was strong enough that she could conceivably go toe-to-toe with any other ship afloat in a gun battle and win.

Although there were some problems with the ship — the design's wing turrets strained the hull when firing broadsides, and the top of the thickest armor belt lay below the waterline when the ship was fully loaded — Dreadnought was so revolutionary that battleships built before her were afterward known as "pre-Dreadnoughts", and those following as "Dreadnoughts". Vessels built within a few years that were bigger and mounted more powerful guns were referred to as "Super Dreadnoughts". In a stroke, Dreadnought had made all existing battleships obsolete; including those of the Royal Navy, which embarked on a programme of building ever-more-powerful Dreadnought designs.

National pride in the early 20th century was largely based on how many of these ships a navy had, and details were published in the newspapers for the public to avidly follow; the naval arms race which Dreadnought sparked, especially between Britain and the young German empire, was to create powerful shockwaves. Whereas Germany before the commissioning of Dreadnought had been behind the British Empire by more than twenty battleships of the highest class, they were now behind only one.

Dreadnought was powered with steam turbines, which enabled her to sustain a higher maximum speed for longer, and with less maintenance than its triple-expansion engine powered predecessors. Being more compact, the turbines also allowed for a lower hull, which had the side-effect of reducing the amount of armour the ship had to carry. Although turbines had been used in destroyers for some years previously, Dreadnought was the first large warship to use them. As a consequence of the turbines, Dreadnought was actually slightly cheaper than the previous Lord Nelson class of pre-Dreadnoughts.

The American South Carolina class battleships were begun before Dreadnought, and had most of its features, except for the steam turbines; however, their final design was not completed before Dreadnought, and their construction took much longer.

The super Dreadnought

Orion class battleships in line
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Orion class battleships in line

The arrival of super dreadnoughts is not as clearly identified with a single ship in the way the dreadnought era was initiated by HMS Dreadnought. However, it is commonly viewed to commence with the Orion class battleships, and in German ships with the Konigs.

The Orions were just one step in a breathtakingly rapid evolution that Dreadnought had initiated. What made them "super" was the unprecedented jump in displacement of 2,000 tons over the previous class, the introduction of the 13.5 inch gun, and the placement of all the main armaments following the direction of the keel. Thus, in the four years that separated the laying down of Dreadnought and Orion, displacement had increased by 25%, and weight of broadside had doubled.

Super dreadnoughts also incorporated, during construction, the latest technical gunnery advances. Thus they received director control, were designed with larger observation positions with range finders and electrical repeaters aloft, mechanical calculators and predictors in protected positions below, and very advanced alignment and correction devices for the guns.

The design weakness of super dreadnoughts, which distinguished them from post-war designs, was armour disposition. Initially, shipwrights preferred the vertical protection of short battle ranges. These ships were capable of engaging effectively at 20,000 metres, but were vulnerable when receiving fire from such ranges. Post-war designs typically had 5 to 6 inches of deck armour to defend against this dangerous, plunging fire. Lack of underwater protection also overtook these pre-World War I designs.

The super dreadnought era was over by the end of World War I. Super dreadnoughts that served in World War II had all either received extensive modifications, or were a source of extreme anxiety because of their vulnerability to more modern battleships, or both.

World War I

British Grand Fleet during WWI
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British Grand Fleet during WWI

A naval arms race had been ongoing between Germany and the United Kingdom since the 1890s. The building of Dreadnought actually helped Germany in this, as instead of having a lead of 15 or so ships of the latest type, Britain now had a lead of just one. Furthermore, Britain's policy of maintaining a navy larger than the world's second and third largest navies combined was becoming unsustainably expensive. All other battleship navies switched over in the next few years to building Dreadnought-type ships as well.

At this point in time, the Royal Navy of the United Kingdom had ruled the seas for several centuries, but the German emperor Kaiser Wilhelm II and his naval minister, Alfred von Tirpitz, set out to change that, in part for strategic reasons, but mainly due to a simple desire to challenge Britain. The culmination of this race led to a stalemate in World War I. The German High Seas Fleet and the British Grand Fleet were too valuable to be risked in battle and so both spent the majority of the war in port, waiting to respond should the other go to sea. Paradoxically, the ships were too valuable (strategically, at least) to leave at port, and too expensive to use in battle. Apart from some operations in the Baltic against Russia, Germany's main fleet limited itself to making battlecruiser raids on the British east coast, in an attempt to lure part of the British fleet out so that it could be defeated by the waiting High Seas Fleet. In their turn, the British made sweeps of the North Sea, and both sides laid extensive minefields. Although there were several naval battles, the only engagement between the main British and German fleets was the abortive Battle of Jutland, a German tactical victory of sorts (fourteen British ships were sunk to eleven German although the High Seas Fleet fled the field) but a British strategic victory, as although the German fleet was not destroyed it took longer to come back to operational status than the British and mostly remained in port for the rest of the war.

After World War I, the Armistice with Germany required that most of the High Seas Fleet be interned at Scapa Flow, Scotland. Most of these ships were subsequently scuttled by their German crews on 21 June 1919 just before the formal surrender of Germany. As far as the German sailors were concerned, they were undefeated; it was felt that their ships should not fall into the hands of the British.

World War II

The Imperial Japanese Navy's Yamato, the largest battleship in history, 1941
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The Imperial Japanese Navy's Yamato, the largest battleship in history, 1941

With the Washington Naval Treaty of 1922, the major navies of the world scaled back their battleship programs, with numerous ships on all sides scrapped or repurposed. With extensions, that treaty lasted until 1936, when the major navies of the world began a new arms race. Famous ships like Bismarck, Prince of Wales and Yamato were all launched in the next few years. During the conflict naval warfare evolved quickly and battleships lost their position as the principal ships of the fleet.

In the early stages of the battle of the Atlantic, Germany's surface units threatened the Atlantic convoys supplying Britain, so the British surface units devoted themselves to protecting the convoys, and seeking out and trying to destroy the German ships, as well as lying in wait at Scapa Flow. The German battleship raiders recorded early successes, with Scharnhorst and Gneisenau surprising and sinking the aircraft carrier HMS Glorious off western Norway in June 1940. A subsequent cruise in the North Atlantic netted the Scharnhorst and Gneisenau 22 ships. Bismarck sank the battlecruiser HMS Hood on 24 May 1941 during an attempt to break out into the North Atlantic. The Royal Navy hunted down Bismarck; an attack by Swordfish biplanes from the aircraft carrier Ark Royal with torpedoes disabled her steering, leaving her a sitting-duck, and on Monday 27 May 1941 the battleships King George V, Rodney and a number of cruisers and destroyers engaged her with guns and torpedoes. After an eighty-eight minute battle, she sank, with some reports indicating that she was scuttled by her own crew.

Battleships were also involved in the battle to control the Mediterranean. At the Battle of Taranto in November 1940, Swordfish airplanes from HMS Illustrious attacked the Italian fleet at their base at Taranto. Losing 21 planes, the Royal Navy effectively sunk one battleship and disabled two others. The success of this raid inspired the Japanese plan to attack Pearl Harbor which entered the planning stage three months later. At the Battle of Cape Matapan, 2729 March 1941, three Italian heavy cruisers were surprised and overwhelmed by a British battleship force near Crete, demonstrating that lighter ships in the fleet were still vulnerable to big guns.

However, technology was overtaking the battleship. A battleship's big guns might have a range of thirty miles, but the aircraft carrier had aircraft with ranges of several hundred miles, and radar was making those attacks ever more effective. Bismarck was crippled by obsolete Swordfish torpedo bombers from Victorious and Ark Royal. The Soviet dreadnought Petropavlovsk and Italian Roma were sunk by German air attacks. The British battleship HMS Prince of Wales and its battlecruiser escort HMS Repulse were sunk by Japanese torpedo bombers while in defence of Malaya (Malaysia and Singapore). Prince of Wales became the first battleship to be sunk by aircraft while able to defend itself in open water.

D-Day saw battleships in the role of coastal bombardment in support of an amphibious landing on a hostile, fortified shore. Several older battlewagons came into their own, not only knocking out coastal guns which threatened transports and landing craft, but also hitting troop and tank concentrations, and railway marshalling yards. HMS Ramillies fired 1,002 15" shells at shore targets as well as driving off German aircraft, E Boat and destroyer attacks.

The Japanese bombing of Pearl Harbor in December 1941 sank or damaged most of the U.S. Pacific Fleet's battleships, but the three aircraft carriers were not in port and so escaped damage. Six months later, it was those carriers that were to turn the tide of the Pacific War at the battle of Midway. As the war progressed, battleships became festooned with anti-aircraft weapons such as the 40mm Bofors gun. Nonetheless, the advent of air power spelled doom for the battleship.

Battleships in the Pacific ended up primarily performing shore bombardment and anti-aircraft defense for the carriers. The largest battleships ever constructed, Japan's Yamato and Musashi, were sunk by aircraft attacks long before they could come within striking range of the American fleet. The last active German battleship, Tirpitz, had lurked until late into the war in Norwegian fjords protected by anti-submarine defences and shore based anti-aicraft guns, but was still damaged there and sunk by RAF aircraft using Tallboy bombs.


The second half of World War II saw the last four battleship duels. Massachusetts fought Vichy French battleship Jean Bart on 27 October 1942. In the Battle of Guadalcanal on November 15, 1942, the United States battleships South Dakota and Washington fought and destroyed the Japanese battleship Kirishima. In the Battle of North Cape, on 26 December 1943, HMS Duke of York and destroyers sank the German Scharnhorst off Norway. And in the Battle of Leyte Gulf on 25 October 1944 six battleships, led by admiral Jesse Oldendorf of the US 7th Fleet sank the Japanese admiral Shoji Nishimura's battleships Yamashiro and Fuso during the Battle of Surigao Strait.

Nevertheless, the Battle of Samar on 25 October 1944 during the Battle of Leyte Gulf proved that battleships still were a lethal weapon. Only the indecision of Admiral Takeo Kurita saved the American aircraft carriers of Taffy III from being pounded to bottom by gunfire of Yamato, Kongo and Nagato and their cruiser host. Miraculously, only USS Gambier Bay along with four destroyers were lost due to surface action.

As a result of the changing technology, plans for even larger battleships, the American Montana class and Japanese Super Yamato class, were cancelled. At the end of the war, almost all the world's battleships were decommissioned or scrapped. It is notable that most battleship losses occurred while in port. No battleship was lost to heavy bombers on the open seas, which was considered the most grave aerial peril to battleships prior WWII due to Billy Mitchell and SMS Ostfriesland experiment. The Roma was sunk by a guided bomb, a Fritz X, while underway to surrender.

Post World War II

After World War II, several navies retained battleships, but they were now outclassed by carriers. The Italian Giulio Cesare was taken by the Soviets as reparations and renamed Novorossiysk; it was sunk by a German mine in the Black Sea 29 October 1955. The two Doria class ships were scrapped in the late 1950s. The French Lorraine was scrapped in 1954, Richelieu in 1964 and Jean Bart in 1970. Britain's four surviving King George V class ships were scrapped around 1958, and Vanguard around 1960. All other surviving British battleships were scrapped in the late 1940s. The Soviet Union's Petropavlovsk was scrapped in 1953, Sevastopol in 1957 and Gangut in 1959, Brazil's Minas Gerais was scrapped in 1954 (sister ship Sao Paulo sank in a storm in 1951), Argentina kept its two Rivadavia-class ships until 1956, Chile kept Canada until 1959, and the Turkish battlecruiser Yavuz (formerly the German Goeben, launched in 1911) was scrapped in 1976 after an offer to sell it back to Germany was refused. Sweden had several coastal battleships which survived until the 1950s. The Russians also scrapped four large incomplete cruisers in the late 1950s. There were also some old sailing battleships still around. All but HMS Victory were sunk or scrapped by 1957.

The battleship USS Iowa firing a salvo to starboard
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The battleship USS Iowa firing a salvo to starboard

The battleships gained a new lease of life in the USN as fire support ships. Shipborne artillery support is considered by USMC as more accurate, more effective and less expensive than aerial strikes. Radar and computer controlled gunfire can be aimed with pinpoint accuracy to target. The United States recommissioned all four Iowa-class battleships for the Korean War and New Jersey for the Vietnam War. These were primarily used for shore bombardment. All four were modernized and recommissioned under the Reagan administration and converted to carry Tomahawk missiles, with New Jersey seeing action bombarding Lebanon, while Missouri and Wisconsin fired their 16-inch (406 mm) guns at land targets and launched missiles in the Gulf War of 1991. This will most likely be the last combat action ever by a battleship.

All four were decommissioned in the early 1990s, the last battleships to see active service. Missouri, and New Jersey are now museums at Pearl Harbor and Camden, N.J. respectively. Wisconsin also functions as a museum (at Norfolk, Va.), but is still on the NVR, and the public can only tour the deck, with the rest of ship closed off. Iowa (at Suisun Bay) and Wisconsin are in the Naval Reserve Fleet, and could be re-activated.

From the late 1970s onwards, the Soviet Union (later Russia) built four large nuclear-powered Kirov-class missile cruisers (Raketny Kreyser (Rocket Cruiser)), one of which is still running as of 2005. Their introduction had been one of the factors leading to the re-instatement of the Iowas. The ships, while comparatively big for a cruiser, are not battleships in the traditional sense; they adhere to the design premise of a large missile cruiser and lack traditional battleship traits such as heavy armor and significant shore bombardment capability. For example, at ~26,000 tons displacement they are near double the Krasina-class missile cruisers (~11,000 tons), but half the Iowa class (~55,000 tons).

Battleships still in existence as museums include the American USS Massachusetts, North Carolina, Alabama and Texas, the British HMS Mary Rose, Victory and Warrior, the Japanese Mikasa, the Swedish Vasa, the Dutch Buffel and Schorpioen, and the Chilean Huascar. (See Category:Museum ships for other museum ships).

USS Iowa and USS Wisconsin are maintained in accordance with the National Defense Authorization Act of 1996, which includes the following battleship readiness requirements:

  1. List and maintain at least two Iowa-class battleships on the Naval Vessel Register that are in good condition and able to provide adequate fire support for an amphibious assault;
  2. Retain the existing logistical support necessary to keep at least two Iowa-class battleships in active service, including technical manuals, repair and replacement parts, and ordnance; and
  3. Keep the two battleships on the register until the Navy certified that it has within the fleet an operational surface fire support capability that equals or exceeds the fire support capability that the Iowa-class battleships would be able to provide for the Marine Corps' amphibious assaults and operations ashore. (Section 1011) Source

Current plans in the United States Navy call for keeping Iowa and Wisconsin on the register until the naval surface fire support gun and missile development programs achieve operational capability, which is expected to occur sometime between 2003 and 2008. If and when Iowa and Wisconsin are removed from the Naval Vessel Register there is a high probabilty that interest groups will request that they be placed on donation hold and transfered for use as museums.

Fictional appearances

The term "battleship" often makes an appearance in military-oriented science fiction, where they often occupy a role similar to their historical one. It should be noted that some writers have come to believe "battleship" is synonymous with "warship", and thus we see strange classifications like "light battleship" or "small battleship". Sometimes the futuristic battleships are actually large spacecraft warships operating in outer space, rather than the open ocean.

See also

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