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A Fairey Swordfish carrying a dummy torpedo

A torpedo bomber is a military aircraft designed primarily to attack ships with aerial torpedoes. Torpedo bombers came into existence just before the First World War almost as soon as aircraft were built that were capable of carrying the weight of a torpedo, and remained an important aircraft type until they were rendered obsolete by anti-ship missiles. They were an important element in many famous Second World War battles, notably the British attack at Taranto, the sinking of the German battleship Bismarck, the sinking of the British battleship HMS Prince Of Wales and the British battlecruiser HMS Repulse and the Japanese attack on Pearl Harbor.

Types

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A formation of Fairey Barracudas during World War II

Torpedo bombers first appeared immediately prior to the First World War. Generally, they carried torpedoes specifically designed for air launch, which were smaller and lighter than those used by submarines and surface warships. Nonetheless, as an airborne torpedo could weigh as much as 2,000 pounds (900 kg), more than twice the bomb load of contemporary single-engined bombers, the aircraft carrying it usually needed to be specially designed for the purpose. Many early torpedo bombers were floatplanes, such as the Short 184 (the first aircraft to sink a ship with a torpedo), and the undercarriage had to be redesigned so that the torpedo could be dropped from the aircraft's centerline.

While many torpedo bombers were single-engine aircraft, some multi-engined aircraft have also been used as torpedo bombers, with the Mitsubishi G3M Nell and Mitsubishi G4M Betty being used in the sinking of HMS Prince of Wales and Repulse. Other twin-engine or three-engined aircraft designed or used as torpedo bombers include the Mitsubishi Ki-67, the Savoia-Marchetti SM.79 "Sparviero", the CANT Z.1007, the Bristol Beaufort and Bristol Beaufighter ("Torbeau"), the Junkers Ju 88, the Heinkel He 111, the North American B-25 Mitchell and many others.

Some postwar jet aircraft (such as the Ilyushin Il-28T) were adapted as torpedo bombers in the late 1940s and 1950s. The last known torpedo bomber attack was made by US Navy Douglas A-1 Skyraiders against the Hwacheon Dam during the Korean War. The North Korean Air Force finally retired the world's last operational torpedo bombers in the 1980s.

In a parallel development, many maritime strike aircraft and helicopters have been capable of launching guided torpedoes; however, they are not generally referred to as torpedo bombers because of their vastly greater detection and tracking capabilities, although they remain just as capable of making attacks on surface ships as against submarines.

History

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Many naval staffs began to appreciate the possibility of using aircraft to launch torpedoes against moored ships in the period before the First World War. Captain Alessandro Guidoni, an Italian naval captain, experimented with dropping weights from a Farman MF.7 in 1912.[1] which led to Raúl Pateras Pescara and Guidoni developing a purpose-built torpedo bomber from which a 375 lb (170 kg) dummy torpedo was dropped in February 1914 but they abandoned their work shortly afterwards when the aircraft's performance proved inadequate. Admiral Bradley A. Fiske of the United States Navy took out a patent in 1912 for a torpedo carrying aircraft entitled "Method of and apparatus for delivering submarine torpedoes from airships." He suggested that aircraft would attack at night.[2] Winston Churchill, as First Lord of the Admiralty from October 1911 to May 1915, was a strong proponent of naval air power. He established the Royal Naval Air Service in April 1912 and took flying lessons to foster aviation development. Churchill ordered the RNAS to design reconnaissance spotters and torpedo bombers for the Fleet.[3]

First torpedo bombers

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Short Folder 81 being hoisted aboard the cruiser HMS Hermes

The British Admiralty ordered the Short Admiralty Type 81 biplane floatplane as a reconnaissance aircraft. It first flew in July 1913 and was loaded aboard the cruiser HMS Hermes, which had been converted to become the Royal Navy's first seaplane tender. When the rival Sopwith Special, designed from the outset as a torpedo bomber, failed to lift its payload off the water, Shorts converted the Type 81 to carry torpedoes in July 1914, just before the outbreak of the First World War.[4]

On 28 July 1914, Arthur Longmore dropped the first aerial torpedo, a 14-inch (360 mm), 810 lb (370 kg) torpedo, from a Type 81 at the Royal Naval Air Station Calshot.[5] The support wires of the floats were moved to allow the torpedo to be carried above the water and a specially designed quick-release mechanism was used.[5]

The first plane designed from the outset as a torpedo bomber was the five-seat floatplane biplane AD Seaplane Type 1000 or AD1. However, it proved to be a failure. When the prototype built by J. Samuel White from the Isle of Wight first flew in June 1916, it was found to be too heavy and its float struts too weak for operations. Remaining orders were cancelled.[6]

First World War

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A Sopwith Cuckoo dropping an aerial torpedo during World War I

On 12 August 1915, a Royal Naval Air Service Short 184 floatplane torpedo bomber sank a Turkish merchantman in the Sea of Marmara. It was operating from HMS Ben-my-Chree, a seaplane carrier converted from a ferry. Fitted with an aircraft hangar, Ben-my-Chree was used to carry up to six biplanes with their wings folded back to reduce carrying space.

This was the first ship sunk by air-launched torpedo. Five days later, another ship supplying Turkish forces in the Gallipoli campaign against British, Australian and New Zealand troops was also sunk.

Production of the Short 184 continued until after the Armistice of 11 November 1918, with a total of 936 built by several manufacturers. It served in eight navies, including the Imperial Japanese Navy, which built them under licence.[7]

The first torpedo bomber designed for operation from aircraft carriers was the Sopwith Cuckoo. First flown in June 1917, it was designed to take off from the Royal Navy's new aircraft carriers, but had to land on an airfield as arrester wires, needed to stop an aircraft during landing on a ship, had not yet been perfected. The Admiralty planned to use five carriers and 100-120 Cuckoos to attack the German High Seas Fleet, which had been sheltering in Kiel since the Battle of Jutland in 1916 but when the war ended only 90 Cuckoos had been completed.[8]

The Vickers Vimy twin-engine heavy bomber was designed to bomb German cities in retribution for German air attacks on England. It reached squadrons in France too late to play a role in the First World War. Had the war continued, it would have been deployed as a torpedo bomber.

Interwar years

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The Hawker Horsley

Of the major maritime nations, only Britain, Japan and the United States developed carrier-borne torpedo bombers after hostilities ceased in Europe. Initially, Japan purchased both ships and aircraft from Britain, as the Imperial Japanese Navy modelled itself on the Royal Navy. Of the three, only Britain and Japan also perceived a need for land-based torpedo bombers, though a number would be developed by other countries. Bordered by oceans against any possible foe, the United States ignored landplane torpedo bomber development.

The first landplane specifically designed as a torpedo bomber was the Hawker Horsley. By the mid 1930s, the torpedo bombers that would start the Second World War were being deployed. The Fairey Swordfish flew first in 1934, the Douglas TBD Devastator and Mitsubishi G3M (Nell) in 1935 and the Nakajima B5N (Kate) and Bristol Beaufort a year after that.[9]

Second World War

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A Bristol Beaufort being loaded with torpedo

Even before the outbreak of the Second World War, the Royal Navy had studied the threat in the Mediterranean posed by the Italian fleet, which had its advance base in the new port of Taranto in the "heel" of Italy. Captain Lumley Lyster of the aircraft carrier HMS Glorious proposed that his Fairey Swordfish torpedo bombers could launch a night attack against Taranto. At that time, the Royal Navy was the only force in the world with this capability. The Swordfish, a three-seat biplane, looked outmoded, but its low stall speed made it an ideal platform for launching torpedoes into the shallow waters of Taranto. The torpedoes were adapted with wire cables attached to their nose and wooden fins at their tail to slow their fall and make a shallow impact with the water, which was only 39 ft (12 m) deep.

The damaged battleship Littorio after the Taranto attack

On the night of 11 November 1940, 21 Swordfish left the new aircraft carrier HMS Illustrious. Some carried bombs and flares, but the main force carried torpedoes. British decoy maneuvers and the Italians' lack of radar allowed the British to surprise the ill-prepared Italian fleet at anchor in Taranto. Three battleships were put out of action, half of the Italian fleet, for the loss of two Swordfish. Two airmen were killed and two others captured. The next day, the remaining Italian battleships withdrew to Naples, ceding control of the Mediterranean to the British.[10]

On 6 April 1941, a single Bristol Beaufort piloted by Flying Officer Kenneth Campbell attacked the German battleship Gneisenau in Brest harbour in Brittany, where she and her sister ship, Scharnhorst, were sheltering beneath a massive array of anti-aircraft guns. The other five Beauforts on the mission failed to rendezvous due to bad weather. Campbell received a posthumous Victoria Cross for launching his solo torpedo attack, which put Gneisenau out of action for six months.[11]

At 1900 hours on 26 May 1941,[12] fifteen Fairey Swordfish were launched from the Royal Navy's carrier HMS Ark Royal to attack the German battleship Bismarck. Their formation was badly disrupted by heavy clouds and driving rain which resulted in a series of piecemeal attacks. However, two torpedoes hit the Bismarck, one of which jammed the rudder leaving the ship without proper directional control. The next day the Bismarck was sunk by British battleships and cruisers.[13]

In the early hours of 13 June 1941, two Beauforts found the German cruiser Lützow off Norway. The first was mistaken for a Junkers Ju 88 and was able to torpedo the Lützow without return fire, putting her out of action for six months.[citation needed] The second was shot down by defending Messerschmitt Bf 109s.

A Japanese B5N from the Kaga attacking Pearl Harbor

In the attack on Pearl Harbor, Admiral Isoroku Yamamoto's fleet of six carriers launched 40 Nakajima B5N2 Kate torpedo bombers on Sunday, 7 December 1941. The Japanese struck the United States Pacific Fleet when it was moored in harbour. The torpedo bombers coordinated their attacks with dive bombers; the combined effort sank or damaged all eight of the battleships which they found moored in Pearl Harbor. The Japanese had studied the attack on Taranto and had practiced dropping specially modified Type 91 torpedoes in the shallow waters of Japan's Inland Sea. The Type 91 torpedo was considerably more capable than any others in the world at that time, being very fast and reliable, as well as allowing a much higher launch speed from a much greater altitude than other types. Only five Kates were lost in the attack.[14] In later months, torpedo bombers were responsible for the sinking of the American aircraft carriers Lexington and Hornet, and damaging Yorktown. During the war, Japanese torpedo bombers (mainly the Nakajima B5N) played a key role in the fatal crippling of the carriers USS Lexington (scuttled as a result of an internal explosion), USS Yorktown (sunk by a Japanese submarine while being towed), and USS Hornet (abandoned and finished off by US and Japanese surface ships).

Three days after the attack on Pearl Harbor, Admiral Sir Tom Phillips was returning to Singapore on board the new battleship HMS Prince of Wales after an unsuccessful attempt to impede Japanese landings in Malaya. His fleet included the First World War battlecruiser HMS Repulse and should also have had the new aircraft carrier HMS Indomitable with a squadron of Sea Hurricanes. But the carrier was delayed for repairs after running aground in the harbour at Kingston, Jamaica. Eight Mitsubishi G3M Nell twin-engine level bombers and 17 Nell torpedo bombers found the two capital ships without air cover in broad daylight. They scored just a single bomb hit on Repulse and a single torpedo hit on Prince of Wales. The torpedo struck where the outer port propeller shaft exited the hull and Prince of Wales took on 2,400 t (2,400 long tons; 2,600 short tons) of water through a ruptured stern gland. The battleship listed 12 degrees to port preventing the starboard side 5.25 inch anti-aircraft guns from depressing low enough to deter more torpedo bombers. A second squadron, this time of Mitsubishi G4M Betty torpedo bombers, now attacked both ships. Repulse had dodged 19 torpedoes by skillful steering, but now G4Ms attacked the bow from both sides and scored another hit. At about this point, Repulse radioed for defensive fighters. A squadron of 10 Royal Australian Air Force Brewster Buffalos arrived an hour later to watch Prince of Wales sink. Repulse had already sunk. Each ship had been hit by four torpedoes out of 49 fired. The Japanese lost four aircraft. Neither G3Ms nor G4Ms carried defensive armament, which had been stripped to extend their range. The presence of modern Allied fighters to defend the two capital ships might have led to a different outcome.[15]

An artist rendition of the sinking of HMS Prince of Wales and HMS Repulse

On 12 February 1942, Bristol Beauforts were dispatched to intercept the German cruiser Prinz Eugen off Trondheim, Norway. Prinz Eugen had accompanied Bismarck into the Atlantic, but returned to Brest. For the first time, the Beauforts were accompanied by Bristol Beaufighters and Bristol Blenheims. In a new RAF tactic, the Blenheims acted as decoys, making pretense torpedo runs, while the Beaufighters, a development of the Beaufort fitted with four 20 mm (0.79 in) cannon, shot up the anti-aircraft gunners. This was intended to give the Beauforts a clear torpedo run. However, none of the 28 Beauforts achieved a hit, and three aircraft were lost.[11]

TBD Devastators on USS Enterprise during the Battle of Midway

The United States Navy's standard torpedo bomber in 1942 was the Douglas TBD Devastator, first flown in 1935 and embarked on carriers of the Pacific Fleet in 1937. On 7 May 1942, Devastators sank the Japanese aircraft carrier Shōhō in the Battle of the Coral Sea, but failed to sink the aircraft carrier Shōkaku the next day.[16]

At the Battle of Midway on 4 June 1942, 41 Devastators launched from three American carriers failed to score a single torpedo hit, and only six aircraft returned, as the rest fell to the Mitsubishi A6M Zero combat air patrols and ships' anti-aircraft fire. The attacks had been poorly coordinated, but the Devastator sorties were credited with pulling the defending A6M Zeros out of position, as well as preventing the Japanese carriers from launching their aircraft, so three of the four carriers were caught with their hangar decks full of fueled and armed planes when the American dive bombers struck by surprise. Nonetheless, the Devastator was immediately withdrawn from front-line service.[17] The successor to the Devastator, the Grumman TBF Avenger, arrived too late at Pearl Harbor to be loaded onto carriers for the Battle of Midway. However, six were flown from Midway Island. They fared no better, with five lost without a single hit.[18]

Avengers became more successful as tactics improved and crews became more skilled. On 24 August 1942, 24 Avengers sank the light carrier Ryūjō at the Battle of the Eastern Solomons. At Guadalcanal, Avengers from the Navy and Marine Corps helped to finish off the battleship Hiei, which had lost steering after being damaged the prior night.[19]

Beauforts also had more success when they moved to Malta to attack Italian warships and transport. Flying Officer Arthur Aldridge discovered a convoy guarded by the heavy cruiser Trento early on 14 June 1942 some 200 miles (320 km) east of Malta. As in the attack on Lützow, the Beaufort was mistaken for a Junkers Ju 88, and Aldridge hit Trento with his torpedo; the ship was eventually finished off by the submarine HMS Umbra (P35), which was close by.[11]

At the Battle of the Sibuyan Sea, with little or no Japanese air cover opposing them, US carrier aircraft concentrated most of their attacks against Musashi, sinking her with about 19 torpedoes that caused heavy flooding which disabled her engineering (dive bombers also scored around 17 bomb hits), while an aerial torpedo crippled the heavy cruiser Myōkō, which was never repaired for the remainder of the war.

Explosion of the battleship Yamato after being attacked by US Navy aircraft.

Action continued in the Pacific, where the last notable torpedo bomber attack took place on 7 April 1945. Avengers from Yorktown were searching between Okinawa and Honshu for the Japanese battleship Yamato, which was escorted by cruisers and destroyers. Her mission was to run aground on Okinawa to provide floating heavy artillery for the defending troops in the expected Allied seaborne invasion. Her 18.1-inch (460 mm) guns could have created havoc among frail landing craft. Yamato and her sister the Musashi were the largest, most powerful battleships in the world. The squadron led by Lieutenant Tom Stetson found the cruiser, which was the prime target, already sinking, so six planes were detached to attack the Yamato instead. One in which Frederick E. Wicklund was the tail gunner and radar/radio operator became detached from the formation whilst climbing in heavy cloud cover. The pilot, Lieutenant Grady Jean, asked each crewman in turn if they wished to make a solo attack, which was likely to prove suicidal. The crew referred the decision to the skipper, who deftly dodged anti-aircraft fire and 18-inch shell splashes from the Yamato's big guns to release their torpedo. Wicklund had recalled from a briefing that the Yamato had torpedo blisters to a depth of 22 ft (6.7 m), so he crawled back in the fuselage to reset the torpedo's running depth from the 10 ft (3.0 m) preset for the cruiser to 23 ft (7.0 m). He later explained that he heard no command to do this and doubted whether the other five planes had done so. In their case, their torpedoes would have exploded harmlessly against the blisters. A crewman photographed the explosion, in which debris rose to their altitude of 300 feet (90 m). Possibly a torpedo had hit the fuel storage. The Yamato rolled over and sank, with the loss of 90 percent of the crew. The Yorktown lost ten planes and twelve aircrew. All pilots involved in the attack were awarded the Navy Medal and every crewman the Distinguished Flying Cross.[20]

Replacement and obsolescence

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The torpedoes in use during the early 20th century travelled under water at about 40 knots (74 km/h; 46 mph) – a speed easily matched by destroyers and even fast battleships which could make 32 knots (59 km/h; 37 mph). Consequently, a skillful captain could often evade torpedoes. For instance, when HMS Repulse came under attack on 10 December 1941, she avoided 19 torpedoes, before Japanese aircraft attacked simultaneously from both forward quarters.

Caltech developed the 5 in (130 mm) "Holy Moses" High Velocity Aircraft Rocket, with a 24 lb (11 kg) warhead for the US Navy. It was rushed to Europe for use on D-Day and later used by Navy aircraft in the Pacific.[21]

Multi-role attack/strike aircraft

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A Japanese B7A Ryusei (Comet) torpedo dive bomber.

By the beginning of the Second World War, aircraft technology had increased to the extent that specialised torpedo bombers were no longer necessary.

Multi-role designs were often adapted from either: single-engined, carrier-based dive-bombers like the Aichi B7A Ryusei, Curtiss SB2C Helldiver and Fairey Barracuda, or; land-based twin-engined light bombers/attack aircraft, such as the Bristol Beaufighter, Douglas A-20C (Boston IIIA), Junkers Ju 88, and Tupolev Tu-2.

A P-3 Orion dropping an anti-submarine torpedo

As the war progressed, single-seat designs also emerged – omitting the roles of gunner, bombardier/bomb-aimer or observer. This configuration was favoured by the US Navy, in particular, and included the Martin AM Mauler and Douglas A-1 Skyraider, both of which could carry up to three torpedoes. Another concept, the torpedo fighter, also known as the strike fighter, was intended to also have air superiority capabilities – when it was not carrying or had dropped its torpedo. However, the radically differing requirements of these two roles created design constraints that made it difficult for a single design to excel at both. While some torpedo fighters were put into production, such as the Fiat G.55S and Blackburn Firebrand, they seldom launched torpedoes at enemy ships.

From 1946, the US Navy officially discarded its separate designations for dive and torpedo bombers, and introduced a single "Attack" designation, similar to that already used by the USAAF. Conversely, the naval air services of the UK and other Commonwealth countries, persisted with specialised torpedo bombers such as the Grumman Avenger until the early 1960s.

While the importance of air-launched torpedoes declined, relative to anti-ship missiles, during the Cold War and subsequently, they were retained by many air services and are now generally delivered by anti-submarine warfare and maritime patrol aircraft.

Tactics

[edit]
The Japanese coordinated attack on the USS Hornet during the battle of Santa Cruz

One crucial limitation of a torpedo bomber was that it had to fly a long, straight course at a constant altitude of 100 feet (30 m) toward the target ship before launching its torpedo. Torpedoes were very complicated weapons and were prone to damage when landing on water, especially on a wave; they were ideally aimed at the bottom of a wave, but this was difficult to achieve in practice.

During a torpedo run, the attacking aircraft were easy targets for defending combat air patrol fighters. Furthermore, torpedo planes were also highly vulnerable to anti-aircraft fire.

"Anvil" torpedo attack

In the 1930s, the Imperial Japanese Navy developed the best way for torpedo bombers to achieve a hit. They used an "anvil attack", in which two groups of torpedo planes approached the target ship's bow from behind at an angle of about 45 degrees,[clarification needed] one on each side of the ship. The torpedoes were to be launched at the same distance from the ship; this would have ensured a hit no matter where the ship tried to maneuver. In practice, this kind of attack was difficult to coordinate and therefore extremely rare. Usually, combat air patrols and anti-aircraft fire quickly broke up approaching plane formations, forcing each aircraft to attack on its own. At Pearl Harbor, the ships were lined up and basically stationary, so the first attack wave of 40 torpedo bombers armed with Type 91 torpedoes, out of 183 planes, were able to hit the ships broadside, as the defenders were caught by surprise.

Torpedo bombers were best used as part of a coordinated attack with other types of aircraft. For instance, during the attack on the battleship Yamato, fighter planes strafed the ship with machine guns to suppress its anti-aircraft gun fire, while dive bombers tried to cause havoc and inflict topside damage, thus leaving the torpedo bombers unmolested in their attack runs. In total it took 12 torpedoes and 8 bombs to destroy the pride of the imperial Japanese Navy.

Another instance, during the attack on battleship Musashi, fighter planes strafed the ship with machine guns to suppress its anti-aircraft gun fire, while dive bombers caused major topside damage, She holds the distinction of taking 19 torpedoes and 17 bombs before she sank to the bottom of the Sibuyan Sea.

However, if the attackers failed to achieve air superiority or surprise, torpedo bombers suffered heavy losses, regardless of whether the type was obsolete or not. This is best exemplified at the Battle of Midway, where Air Group Eight's dive bombers missed the Japanese carriers.[22] Torpedo Squadron 8 (VT-8, from Hornet), led by Lieutenant Commander John C. Waldron, sighted the enemy carriers and attacked without any coordination with dive bombers or fighter cover. Without fighter escort, every TBD Devastator of VT-8 was shot down without inflicting any damage, with Ensign George H. Gay, Jr. being the only survivor. VT-8 was followed by Torpedo Squadron 6 (VT-6, from Enterprise). VT-6 met nearly the same fate, with no hits to show for its effort. Torpedo Squadron 3 (from Yorktown) then followed the same routine, despite VT-3 having six Grumman F4F Wildcat fighter escorts. The Japanese combat air patrol, flying the much faster Mitsubishi A6M2 "Zeros", made short work of the unescorted, slow, under-armed TBD torpedo bombers. A few TBDs managed to get within a few ship-lengths range of their targets before dropping their torpedoes.

At the Battle of the Santa Cruz Islands in 1942, the Nakajima B5N Kate, despite being in service since 1935,[9] played a key role in sinking USS Hornet, while the new Grumman TBF Avenger torpedo bombers failed to hit a fleet carrier.

When the targets were ships able to maneuver at high speed and hence much harder to hit, torpedoes proved less effective, except in cases when the crews launching them were especially well trained. Still, even a single torpedo hit on an enemy warship could cripple it decisively, especially in the case of vessels without an armored belt (cruisers and aircraft carriers often had torpedo blisters, but these were not as extensive as those of battleships). Even on heavily armored battleships, there was nothing to protect the rudder and propellers at the stern, as was demonstrated in the cases of the Bismarck and HMS Prince of Wales and HMS Repulse, and few had their protective belt extend to the extremities, and a hole made in the bow could be forced wider from the pressure of the water which could buckle and crush unarmored internal bulkheads, which worked against Musashi and Yamato.

Notable torpedo bomber pilots

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See also

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References

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Revisions and contributorsEdit on WikipediaRead on Wikipedia

Torpedo bomber

View on Grokipedia
from Grokipedia
A torpedo bomber is a specifically designed to attack surface naval vessels by launching aerial torpedoes, typically from low altitudes to ensure accurate delivery against moving targets. These emerged as a critical element of in the early , combining the range and speed of airplanes with the destructive power of torpedoes to neutralize enemy fleets from afar. Torpedo bombers played a pivotal role in , forming an essential part of carrier-based air groups alongside fighters and dive bombers. The U.S. Navy's , introduced in 1937, represented an early state-of-the-art example but proved vulnerable to modern anti-aircraft defenses and fighters by 1942. It was quickly succeeded by more robust designs like the , which entered service in 1942 as the Navy's standard torpedo bomber, capable of carrying a 2,000-pound torpedo or bombs while achieving speeds up to 276 mph. Over 9,800 Avengers were produced, serving not only in torpedo strikes but also in dive bombing, reconnaissance, and . The tactical significance of torpedo bombers was dramatically illustrated in major Pacific Theater battles, where their low-level attacks drew enemy defenses away from higher-altitude dive bombers, enabling decisive strikes. At the in June 1942, U.S. torpedo squadrons, including six TBF Avengers launched from Midway Island (a detachment from USS Hornet's air group), launched daring assaults on Japanese carriers despite overwhelming odds, with five Avengers shot down but their efforts creating openings for the subsequent dive-bombing success that turned the tide of the war. Similarly, Avengers contributed to victories in the and the , though their pure torpedo role diminished late in the war due to improved enemy air cover, leading to versatile multi-role adaptations. By the postwar era, dedicated torpedo bombers were phased out in favor of jet-powered multi-role fighters and helicopters equipped with advanced anti-ship missiles, rendering the specialized type obsolete in modern naval aviation. Nonetheless, their legacy endures as a cornerstone of carrier warfare doctrine, influencing the evolution of integrated strike capabilities in contemporary fleets.

Types

Early Single-Engine Models

Early single-engine torpedo bombers emerged as lightweight, maneuverable aircraft during , designed primarily as floatplanes to extend naval and striking capabilities from carriers. These pioneers introduced delivery, prioritizing simplicity and adaptability over speed or range, with the British serving as the foundational example. Entering service with the Royal Naval Air Service in , the Type 184 was the world's first operational torpedo bomber, capable of carrying and launching a while performing and light bombing roles. The featured a 225 hp Nubian V-12 engine in its initial configuration, delivering a top speed of 88 mph at 2,000 feet and an endurance of about 3 hours, sufficient for coastal patrols and short strikes. Armament consisted of a single rear-firing 0.303-inch Lewis for the observer and one 18-inch Whitehead Mk II weighing approximately 760 lb, suspended between the floats; alternatively, it could carry up to 520 lb of bombs. Over 900 units were produced, including license-built versions and , highlighting its rapid adoption for anti-shipping operations in theaters like the . Evolution in the single-engine category progressed from pure floatplane designs to variants with wheeled undercarriages for land-based or early carrier compatibility, exemplified by the British Sopwith T.1 Cuckoo introduced in 1917. Powered by a 200 hp inline engine, the Cuckoo achieved 106 mph top speed and carried a single 18-inch torpedo, with over 230 aircraft built primarily for patrols against the German , though most arrived too late for extensive combat. This shift enhanced operational flexibility, allowing launches from primitive aircraft carriers like HMS Furious. A landmark event underscoring the pioneering role of early single-engine models occurred on August 12, 1915, when a from HMS Ben-my-Chree, piloted by Flight Commander Charles Edmonds, executed the first successful aerial torpedo strike, hitting the Turkish transport Gul Djemal in the —marking the debut of air-delivered torpedoes in warfare, even though the weapon failed to detonate and sink the vessel.

Multi-Engine and Advanced Variants

Multi-engine torpedo bombers represented an evolution in design during the interwar and periods, featuring two or more engines to enable heavier payloads, extended ranges, and enhanced endurance for maritime strike missions beyond the limitations of single-engine predecessors. These heavier platforms prioritized long-distance operations over carriers or land bases, often incorporating streamlined fuselages and efficient powerplants to balance speed with load-carrying capacity. A prominent example was the Japanese "," a twin-engine land-based adapted for delivery, which entered service in with a combat radius suitable for Pacific theater operations, approximately 1,200 miles when armed. Powered by two 1,530 hp Kasei 11 radial engines, the G4M achieved a maximum speed of 265 mph and a cruising speed of 197 mph, facilitated by its all-metal construction and low-drag wing design. It carried a single 1,764 lb (800 kg) in its internal , supplemented by defensive armament of one 20 mm and four 7.7 mm machine guns, with over 2,400 units produced across variants like the G4M1, which featured upgraded engines for improved performance. The German floatplane exemplified early multi-engine experimentation in 1936, utilizing three 132K radial engines of 960 hp each to support strikes from water bases, achieving a maximum speed of 186 mph at low altitude. Designed for versatility in and attack roles, it accommodated one 1,543 lb (700 kg) or equivalent bombs in its bay, with production reaching around 400 aircraft that underwent trials demonstrating effective low-level delivery in maritime environments. Post-World War II advancements shifted toward , as seen in the Soviet Il-28T torpedo variant introduced in the 1950s, which incorporated two engines for speeds up to 560 mph (900 km/h). This model featured a lengthened weapons bay for RAT-52 aerial torpedoes, mines, or bombs, along with a pressurized for high-altitude operations, adapting the design to counter emerging nuclear-era naval threats through faster ingress and improved survivability. Over 6,000 Il-28 family aircraft were built, with the T variant emphasizing anti-submarine and surface strike capabilities in contexts.

Design Characteristics

Airframe and Propulsion

Torpedo bombers featured diverse airframe designs adapted for low-altitude stability and maritime operations, with early models emphasizing configurations for enhanced lift and maneuverability at slow speeds. The exemplified this approach, utilizing a frame-and-fabric structure with a tubing frame and fabric-covered wings spanning 13.9 meters, which provided inherent stability during drops while allowing for simple in harsh naval environments. In contrast, later designs prioritized streamlining and speed, as seen in the Grumman TBF Avenger's midwing layout with a 16.5-meter , optimized for carrier-based efficiency and reduced drag during extended patrols. Propulsion systems in torpedo bombers relied predominantly on radial piston engines to balance power, reliability, and fuel efficiency for ranges exceeding 1,000 miles, enabling long maritime endurance without mid-mission refueling. The Swordfish employed a single Bristol Pegasus IIIM3 radial engine delivering 690 horsepower, achieving a maximum speed of 140 mph at sea level while supporting operational ranges of up to 550 miles on standard fuel loads. Multi-engine variants like the Mitsubishi G4M utilized twin Mitsubishi Kasei 21 14-cylinder radials, each producing 1,530 horsepower, which facilitated ranges of 1,772 miles and effective loitering over oceanic targets. Although jet propulsion emerged post-World War II, it saw limited adoption in torpedo bombers due to the role's emphasis on low-speed precision over high-velocity strikes, rendering piston engines the standard through their obsolescence. Key performance metrics centered on low-altitude torpedo runs, with stall speeds typically around 60-70 mph to maintain control during weapon release near , as evidenced by designs prioritizing docile handling over rapid acceleration. Reinforced undercarriages accommodated rough carrier landings, featuring robust oleo struts capable of absorbing high-impact arrests, while airframes incorporated corrosion-resistant materials such as aluminum alloys to withstand saltwater exposure and prolong service life in marine conditions. These adaptations ensured operational reliability in fleet environments, where structural directly influenced mission success. Innovations in torpedo bomber airframes included hydraulic systems for carrier storage, as in the Avenger's Sto-Wing mechanism, which reduced wingspan from 16.5 meters to under 5.5 meters via skewed-axis pivots powered by onboard , maximizing deck space without compromising structural strength. Floatplane variants further expanded versatility, with designs like the Douglas TBD-1A replacing wheeled gear with twin floats for operations from seaplane tenders, allowing torpedo deployment from water-based platforms in areas inaccessible to landplanes.

Armament and Launch Systems

Torpedo bombers were primarily armed with aerial torpedoes designed for deployment against surface ships, with the United States Navy's Mark 13 serving as a standard example during World War II. The Mark 13 measured 13 feet 5 inches in length, had a diameter of 22.4 inches, and weighed approximately 2,216 pounds, featuring a 600-pound Torpex warhead capable of a range of 6,300 yards at 33.5 knots. In contrast, the Imperial Japanese Navy's Type 91 aerial torpedo, with an 18-inch diameter, weighed around 1,841 pounds and carried a 452-pound Type 97 explosive warhead, achieving a speed of 42 knots over 2,200 yards. These weapons emphasized hydrodynamic efficiency upon water entry, with the Mark 13's design allowing launches from altitudes up to 100 feet at speeds of 100 knots to ensure stability. Launch systems for aerial torpedoes required precise low-altitude and low-speed drops to minimize impact shock and enable proper arming, typically conducted at 50 to 100 feet above the water surface and 100 to 150 miles per hour. Early gyroscopic stabilization, pioneered in Whitehead torpedoes around 1915, used a spinning to maintain course after launch, countering deviations from the drop angle and improving accuracy over surface-running predecessors. On aircraft like the , torpedoes were carried in an internal measuring about 13 feet long, which accommodated one via hydraulic racks, or externally on underwing hardpoints for alternative loads, facilitating quick release sequences synchronized with the aircraft's dive. Secondary armaments on torpedo bombers provided defensive capabilities and versatility for anti-submarine roles, often including machine guns and alternative ordnance. The British , for instance, mounted a forward-firing 0.303-inch and a rear-facing 0.303-inch K or for crew protection against fighters. Beyond torpedoes, these aircraft could deploy depth charges, such as the U.S. weighing 325 to 350 pounds with hydrostatic fuzes, or bomb loads up to 2,000 pounds, including four 500-pound general-purpose bombs in the Avenger's bay as substitutes for surface strikes. Technical aspects of torpedo deployment involved intricate arming sequences to prevent premature , where a connected to the was withdrawn upon release, followed by a water-entry run of several hundred yards to activate the and before the armed. Some designs incorporated parachute-retarded drops to reduce entry speed and angle, as seen in modifications to the Japanese Type 91 for shallow-water operations, where a chute deployed to stabilize the during descent. Early torpedoes faced compatibility challenges, including wooden components in assemblies that could warp in high humidity, leading to balance issues and erratic runs if not properly sealed or stored.

Historical Development

Origins and World War I

The concept of the torpedo bomber emerged in the early as aviation technology advanced to the point where could carry and release against naval targets. Italian aviators conducted pioneering experiments in dropping weights from airplanes to simulate launches, laying the groundwork for aerial delivery; Italian aviators, using SIA 7bis , performed early drops in 1914, achieving the first operational releases shortly before British successes. In the United States, Bradley A. Fiske of the U.S. Navy secured a in July 1912 for an air-launched system, envisioning as platforms for precise naval strikes before engines were sufficiently powerful for practical implementation. The first successful aerial drop occurred in July 1914 by British forces using a Short S.64 releasing a . In the United States, the first such drop took place in May 1920. World War I accelerated the development of dedicated torpedo bombers, though their impact remained limited by technological constraints. The British adopted the seaplane in early 1915 as its primary reconnaissance and torpedo-carrying aircraft, with initial production yielding around 36 units before scaling to over 900 total by war's end; it was the first purpose-built floatplane capable of reliably launching a 14-inch, 760-pound torpedo. On the German side, the Imperial Navy introduced the Friedrichshafen FF.29 floatplane in 1916 for maritime reconnaissance, but operations were hampered by frequent engine failures in the powerplant, resulting in limited combat effectiveness. A landmark event came during the on August 12, 1915, when Flight Commander Charles H. K. Edmonds piloted a Short 184 from the carrier HMS Ben-my-Chree and successfully struck the beached Turkish supply ship SS Gul Djemal with an , marking the first combat use of an air-launched torpedo against a ship and causing it to catch fire. Five days later, Edmonds struck another Turkish supply vessel, also causing a fire, but such successes were rare; fewer than 10 confirmed sinkings occurred via aerial torpedoes throughout the war, as Allied and efforts prioritized anti-submarine patrols against U-boats over surface ship attacks. Operational challenges plagued early torpedo bombers, including unreliable primitive gyroscopic stabilizers on that often failed to maintain course after water entry, leading to high miss rates estimated at around 50% in trials and . Aircraft vulnerability during low-level approach runs exacerbated risks, with over 100 planes lost in failed torpedo missions due to anti-aircraft , mechanical breakdowns, and ditching after launches. These limitations confined torpedo bombers to niche roles, underscoring the era's experimental nature.

Interwar Period

The of 1922 imposed strict limitations on the construction of capital ships among the major naval powers, including the , Britain, and , thereby shifting strategic emphasis toward aircraft carriers and their embarked aviation assets, such as torpedo bombers, to maintain offensive capabilities without violating quotas. This doctrinal pivot encouraged the integration of carrier-based torpedo strikes as a cost-effective alternative to battleship-centric warfare, influencing naval planning across the signatories in the ensuing decade. During the 1930s, torpedo bomber designs matured significantly, transitioning from biplanes to more advanced configurations suited for carrier operations. The pioneered this evolution with the , which first flew in 1935 as the service's inaugural all-metal torpedo bomber, featuring a low-wing design, retractable , and an enclosed for improved crew protection and performance. In contrast, Britain retained biplane designs for versatility in night operations; the standardized on the in 1936, a three-seat torpedo-reconnaissance valued for its stability in low-level attacks and ability to operate from carriers or catapult-equipped ships despite its outdated fabric-covered structure. , prioritizing extended reach in its island-hopping strategy, introduced the in 1935, a twin-engine emphasizing long-range strikes with the capacity to deliver torpedoes over vast Pacific distances, aligning with the Imperial Japanese Navy's focus on preemptive carrier assaults. Key interwar exercises and conflicts provided practical testing grounds for these emerging platforms. The U.S. Navy's IX in January 1929 simulated carrier-led torpedo attacks against defended positions, such as the , demonstrating the vulnerability of surface fleets to coordinated air strikes and validating the role of dedicated torpedo squadrons in operations. In Europe, the (1936–1939) offered limited but insightful trials for Italian aviation; the Savoia-Marchetti SM.79, a adapted for maritime roles, conducted sporadic torpedo attacks on Republican shipping, highlighting its speed and potential despite challenges from rudimentary launch techniques and enemy defenses. Production scaled rapidly to support doctrinal implementation, with over 1,500 manufactured by the late 1930s to equip squadrons. This buildup facilitated the establishment of specialized torpedo striking forces within the during the 1930s, including dedicated units trained for massed low-level attacks against enemy battle lines, enhancing carrier group lethality through integrated reconnaissance and strike tactics.

World War II

During World War II, torpedo bombers reached their zenith as decisive weapons in naval warfare, particularly in carrier-based operations across major theaters, where they inflicted heavy damage on enemy fleets despite high attrition rates. In the Pacific Theater, the Japanese Nakajima B5N "Kate" torpedo bombers played a pivotal role in the attack on Pearl Harbor on December 7, 1941, with 40 aircraft in the first wave launching torpedoes against U.S. battleships moored at Battleship Row. These attacks sank the USS Oklahoma after multiple torpedo hits that caused it to capsize and contributed to the sinking of the USS West Virginia and USS California, severely crippling the U.S. Pacific Fleet's battleship force. Later, at the Battle of Midway in June 1942, U.S. Navy Douglas TBD Devastator torpedo bombers from carriers Enterprise, Hornet, and Yorktown launched desperate low-level attacks against the Japanese fleet, suffering near-total losses (35 of 41 TBD Devastators launched from VT-8, VT-6, and VT-3 shot down or ditched without scoring hits). However, their sacrifice drew Japanese Zero fighters to sea level, exposing the carriers Akagi, Kaga, Soryu, and Hiryu to unopposed dives by SBD Dauntless bombers, resulting in the sinking of four Japanese carriers and a turning point in the Pacific War. In the European Theater, the British Fleet Air Arm's Fairey Swordfish biplanes demonstrated the vulnerability of anchored fleets in the night attack on Taranto on November 11, 1940, when 21 aircraft from HMS Illustrious launched torpedoes and bombs against the Italian Regia Marina anchorage. The strike damaged three battleships—Littorio (three torpedo hits), Vittorio Veneto (one hit, misidentified initially), and Conte di Cavour (one hit, forcing it to ground)—neutralizing half of Italy's battleship strength and inspiring similar tactics elsewhere. This biplane's obsolescence was overlooked in its next success during the chase of the German battleship Bismarck in May 1941, when 15 Swordfish from HMS Ark Royal braved foul weather and heavy antiaircraft fire to score a critical torpedo hit on the rudder at 22:25 on May 26, jamming it amidships and reducing Bismarck's speed to 7 knots, allowing British surface forces to close and sink her the following day. In the Atlantic and other areas, U.S. Grumman TBF Avenger torpedo bombers conducted daring night attacks during the Guadalcanal campaign in 1942, with Marine and Navy TBFs from Henderson Field repeatedly striking the crippled battleship Hiei on November 13, contributing to her sinking after earlier surface action damage. German adaptations of the Heinkel He 111 for torpedo delivery were limited, as the Luftwaffe prioritized tactical bombing over naval strikes, resulting in sporadic use against Allied convoys with minimal impact compared to Axis counterparts. Overall, aerial torpedoes from such bombers accounted for the sinking of numerous warships, including key capital ships that shifted naval balances. Production of torpedo bombers peaked to meet escalating demands, with the (and licensed TBM variant) exceeding 9,800 units built by war's end, enabling widespread deployment across U.S. carriers and land bases. Tactics evolved from isolated strikes to coordinated massed attacks, as seen in the in , where U.S. Task Force 58 launched over 200 aircraft—including Avengers—in multiple waves against the Japanese Center Force on October 24, damaging the battleship Musashi with 17-19 torpedo hits and forcing her abandonment. These operations underscored the torpedo bomber's role in achieving air-naval supremacy, though vulnerabilities to fighters and antiaircraft fire necessitated improved escorts and radar guidance by 1944.

Post-War Use and Obsolescence

Following World War II, torpedo bombers saw limited employment during the Korean War (1950–1953), primarily by U.S. forces in unconventional roles. On May 1, 1951, Douglas AD-4 Skyraiders from Attack Squadron VA-195, operating from the aircraft carrier USS Princeton (CV-37), conducted the only recorded aerial torpedo attack of the conflict against the Hwachon Dam in North Korea. Eight aircraft dropped Mark 13 torpedoes at approximately 100 feet altitude and 160 mph to breach the dam's floodgates, aiming to disrupt potential enemy flooding of the Pukhan and Han Rivers; six torpedoes struck, destroying one gate and partially damaging another, which cut power to a wide area and hindered Chinese offensives. This operation marked the last known use of piston-powered torpedo bombers in combat by the U.S. Navy, as jets and guided weapons began supplanting traditional unguided ordnance. North Korean and Chinese Communist forces introduced the Ilyushin Il-28T, a jet-powered torpedo variant of the Il-28 bomber, in the early 1950s, though its operational use remained limited to reconnaissance and conventional bombing rather than widespread torpedo strikes during the war. In the early , torpedo bombers persisted in niche (ASW) and maritime strike roles, particularly with Soviet . The Tu-14T, a twin-jet torpedo bomber derived from the Tu-14 reconnaissance platform, entered service in 1952 and equipped mine-torpedo regiments across the Northern, Pacific, and Fleets until the late 1950s, carrying torpedoes, depth charges, and mines for ASW missions. The U.S. Navy phased out dedicated torpedo bombers by the early 1960s, retiring the Grumman TBM Avenger in 1960 and transitioning Skyraiders to other attack duties before their full withdrawal in the 1970s. Some nations, including , retained obsolescent platforms longer; by the 1980s, they maintained biplanes like the for light maritime operations, though primarily for transport and infiltration rather than torpedo delivery. The obsolescence of torpedo bombers accelerated due to technological advances and operational vulnerabilities. The introduction of guided missiles, such as the in 1959, enabled precise standoff attacks on ships and ground targets from safer altitudes, reducing the need for low-level torpedo drops that exposed to antiaircraft fire. Multi-role like the , operational from 1963, further marginalized dedicated torpedo platforms by integrating anti-ship missiles with broader strike capabilities. Enhanced radar systems and faster jet fighters post-World War II made the slow, predictable torpedo runs—typically at 200–300 feet and 150–200 mph—highly vulnerable, with losses in simulated exercises exceeding 50% against modern defenses. Post-war torpedo bomber operations were rare, with fewer than a dozen confirmed strikes recorded globally, underscoring their rapid decline. The shift to rotary-wing aircraft for ASW, exemplified by the introduced in 1961, completed the transition; this twin-engine combined dipping sonar, , and homing torpedoes in a single platform, offering greater flexibility from carriers and escorts compared to fixed-wing predecessors.

Tactics and Operations

Attack Methods

Torpedo bombers executed strikes through a standard low-level approach, typically flying at altitudes below 500 feet (150 meters) and speeds of 100-200 (160-320 km/h) to minimize detection and ensure torpedo stability upon entry into the water. This profile required a straight-line run of 1-2 miles (1.6-3.2 km) toward the target to align the aircraft with the ship's course, simulating the 's straight underwater path and allowing precise aiming despite limited sighting . To enhance survivability and effectiveness, attacks often employed the "" formation, where groups of torpedo bombers approached from opposite directions to envelop the and complicate defensive maneuvers. Release techniques emphasized precision to avoid torpedo malfunction or deviation. The was generally dropped from about 50 feet (15 meters) at 120 knots (140 mph), permitting a run-up distance of 500-1,000 yards (460-910 meters) for the to arm and reach full speed before impact. Post-1940 innovations, such as parachute-retarded , enabled higher-altitude releases—up to several hundred feet—by slowing the 's descent and reducing entry angle risks, allowing faster speeds and safer attack profiles. Environmental factors significantly influenced attack execution, necessitating adjustments for wind and sea state. Crosswinds of 10-20 knots required beam corrections of up to 10-15 degrees to compensate for torpedo drift, while rough seas demanded shallower drops to prevent broaching. Night operations, particularly by British squadrons, incorporated luminous markers on es or flares to aid aiming in low visibility, enabling effective strikes despite reduced accuracy. Success metrics for torpedo attacks evolved markedly over time. By , massed attacks improved this to approximately 30-40%, with coordinated echelon formations—staggered waves approaching in sequence—adopted in 1943 U.S. Navy doctrine to saturate defenses and maximize overlaps.

Coordination and Vulnerabilities

Torpedo bombers required intricate coordination with other naval air units to maximize their impact while mitigating risks, often integrating into operations with and fighters. A key strategy was the "hammer and anvil" tactic, where torpedo bombers approached from multiple directions to force enemy carriers to maneuver predictably, exposing them to follow-up strikes; at the in June 1942, uncoordinated U.S. torpedo attacks inadvertently drew Japanese (CAP) fighters to low altitudes, allowing subsequent Dauntless to achieve devastating hits on three carriers. Carrier task forces facilitated this through radio communications for real-time positioning and visual signals like flares to guide aircraft assembly and attack timing, ensuring synchronized strikes across squadrons from multiple carriers. Despite these efforts, torpedo bombers exhibited inherent vulnerabilities that severely limited their survivability. Their attack profiles demanded low-altitude, straight-line runs at speeds under 150 miles per hour to ensure accurate torpedo release, rendering them highly susceptible to enemy fighters and anti-aircraft fire; for instance, at Midway, approximately 85 percent of the 41 U.S. torpedo bombers were lost due to interception by faster A6M Zeros before reaching launch position. Anti-aircraft defenses compounded this, with radar-directed 40mm guns—introduced effectively in —providing accurate fire up to 4,000 yards against low-flying targets, shredding formations during their extended exposure. Countermeasures evolved to address these weaknesses, particularly through enhanced defensive layers. Allied forces emphasized by fighters like the , which intercepted incoming threats and escorted bombers, reducing successful hits on U.S. carriers by up to 50 percent in late-war engagements compared to earlier uncoordinated actions. In response, Japanese doctrine shifted to massed "Kikusui" operations from 1944 to 1945, involving waves of over 100 suicide aircraft—including modified torpedo bombers—to overwhelm Allied and AA screens, as seen in the April 1945 attacks on the Okinawa invasion fleet that damaged dozens of ships despite heavy Japanese losses. These vulnerabilities drove doctrinal adaptations, emphasizing reduced exposure in strikes. Post-1943, U.S. torpedo bombers transitioned to standoff release techniques with the improved , enabling drops from altitudes of 2,600 feet at 400 knots—far beyond early-war limits—allowing quicker ingress and egress to evade defenses. Overall, these factors contributed to the high-risk role of torpedo bombers despite tactical innovations.

Notable Examples

Iconic Aircraft

The Fairey Swordfish, affectionately nicknamed the "Stringbag" for its ability to carry a diverse array of armaments on its open-frame structure, served as a primary torpedo bomber for the British from 1936 to 1945, with a total production of 2,392 aircraft. Its obsolescent design belied remarkable resilience, enabling operations in extreme conditions such as 55-foot waves and 40-knot winds during Arctic convoys, and allowing individual aircraft to survive intense anti-aircraft fire, including instances where planes endured over 20 flak hits yet returned to base. The Swordfish achieved pivotal impacts in , notably during the 1940 Raid on , where 21 aircraft from HMS Illustrious crippled the Italian fleet by sinking one battleship and damaging two others with torpedoes, demonstrating the vulnerability of anchored warships to aerial attack. Similarly, in May 1941, Swordfish from struck the , damaging its rudder in rough seas and enabling its subsequent destruction by surface forces, thus highlighting the aircraft's role in turning the tide of key Atlantic engagements despite its slow speed of under 140 mph. The emerged as the Navy's principal torpedo bomber from through the end of and into the postwar era, with 9,837 units produced across variants built by and . Featuring a three-man crew—pilot, bombardier, and gunner—and a combat radius exceeding 1,000 miles (with ferry range up to 1,800 miles), the Avenger combined rugged construction with versatility for torpedo drops, glide bombing, and , earning it a reputation as a "workhorse" that absorbed battle damage effectively. Its innovations, including self-sealing fuel tanks and powered turrets, contributed to its longevity, serving in non-torpedo roles such as reconnaissance and transport during the into the 1960s by allied forces. The Avenger's aggregate impact was profound, participating in major Pacific carrier battles like Midway and the Marianas , where its payload capacity and defensive armament helped shift air superiority to Allied forces. The , Allied code-named "Kate," functioned as the Imperial Japanese Navy's standard carrier-based torpedo bomber from 1937 to 1945, with 1,149 aircraft manufactured primarily by Nakajima and Aichi. Renowned for its accuracy and speed of up to 235 mph, the B5N excelled in level bombing and torpedo delivery during early war operations, most notably at in , where 40 torpedo-equipped Kates struck all eight U.S. battleships present, contributing to the sinking of four (, , , and ), though Arizona's sinking was primarily due to bombs while the others received torpedo hits, and severely damaging the others, which inflicted crippling losses on the Pacific Fleet in a single strike. However, its design vulnerabilities—lacking armor plating, self-sealing tanks, and robust defensive guns—led to extraordinarily high attrition rates in contested airspace, with over 80% losses in battles like Midway and the Coral Sea, ultimately rendering it obsolete against improved Allied fighters by 1943 and confining survivors to rear-area duties. The Douglas TBD Devastator marked a pioneering step in U.S. naval aviation as the first all-metal, low-wing monoplane torpedo bomber with retractable landing gear, entering service in 1937 with only 130 units produced before being phased out by 1942. Despite its advanced features for the era, including a three-man crew and a top speed of 206 mph, the Devastator proved obsolete against modern threats due to sluggish handling, poor armor, and unreliable torpedoes, limiting its combat effectiveness after early uses in training and limited pre-war exercises. Its legacy is inextricably linked to the Battle of Midway in June 1942, where 41 Devastators from U.S. carriers Yorktown, Enterprise, and Hornet launched desperate low-level attacks; 35 were shot down without scoring a hit, yet their sacrifice distracted Japanese defenses, enabling dive bombers to sink three carriers and alter the Pacific War's momentum in favor of the Allies.

Famous Pilots and Missions

One of the most daring operations involving torpedo bombers was Operation Judgment, the British raid on the Italian naval base at on November 11, 1940. Twenty-one biplanes from HMS Illustrious launched in two waves, striking the anchored Italian fleet and scoring torpedo hits on three battleships—Littorio, Caio Duilio, and Conte di Cavour—despite intense anti-aircraft fire and searchlights. Among the pilots was 21-year-old Lieutenant John Wellham of 815 Naval Air Squadron, who flew in the second wave, releasing his torpedo at the battleship Littorio from low altitude before his aircraft was riddled with bullets, forcing a precarious glider-like return to the carrier. The raid's success crippled Italian naval power in the Mediterranean, proving the vulnerability of capital ships to aerial torpedo attacks and influencing later strategies, including the Japanese planning for . Lieutenant Commander exemplified the bravery of British torpedo bomber pilots during the hunt for the in May 1941. On May 24, Esmonde led nine from HMS Victorious in the first carrier strike against the Bismarck, braving poor weather and heavy defenses to score one torpedo hit amidships, causing minor damage and flooding, though it did not affect steering or speed significantly—allowing pursuing British forces to close in. Esmonde's squadron returned with all aircraft damaged but intact. Later, on February 12, 1942, during the , Esmonde commanded six from Manston in a desperate, unescorted attack on the escaping German battlecruisers Scharnhorst and Gneisenau; all planes were shot down, with Esmonde , earning him a posthumous for his "extraordinary courage" in leading the sacrificial assault. In the Pacific theater, Japanese torpedo bomber operations highlighted both innovation and high risk, as seen in the attack on Pearl Harbor on December 7, 1941. Lieutenant Commander Shigeharu Murata led 40 Nakajima B5N "Kate" torpedo bombers from carriers Akagi, Kaga, Soryu, and Hiryu, approaching low over the shallow harbor to drop modified Type 91 torpedoes that sank or crippled eight U.S. battleships. Murata's unit achieved devastating surprise despite the challenging shallow-water conditions, for which the torpedoes had been specially adapted with wooden fins to prevent deep dives. However, the vulnerability of unescorted torpedo planes was evident at the Battle of Midway on June 4, 1942, where U.S. Torpedo Squadron 8 (VT-8) from USS Hornet suffered catastrophic losses: all 15 Douglas TBD Devastator aircraft were destroyed by Japanese fighters before releasing torpedoes, resulting in 14 deaths and only Ensign George H. Gay Jr. surviving to witness the ensuing dive-bomber strikes that turned the battle. Overall, American torpedo squadrons at Midway lost approximately 70% of their crews across VT-8, VT-6, and VT-3, with 35 of 51 planes downed, underscoring the role's deadly toll. The sinking of the Japanese super-battleship Yamato on April 7, 1945, marked a climactic end to torpedo bomber operations in . During Operation Ten-Go, a desperate to Okinawa, Yamato and her escorts were overwhelmed by 386 U.S. Navy aircraft from 58, including torpedo bombers that delivered at least 12 confirmed hits, concentrating on her port side and contributing to massive flooding and explosions that capsized the ship after 2,500 crew perished. The attack, coordinated from carriers like and Yorktown, demonstrated the matured tactics of massed carrier strikes, rendering surface battleships obsolete. U.S. pilots underwent rigorous training in the , including simulated torpedo drops using practice shapes on towed targets or barren islands to hone low-level approaches without expending live ordnance.

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