In World War II, the Germans had the following aircraft, here is a list of them with photos:

1. Arado Ar 95 - German two-seater reconnaissance torpedo bomber floatplane

2. Arado Ar 196 - German military reconnaissance seaplane

3. Arado Ar 231 - German light single-engine military seaplane

4. Arado Ar 232 - German military transport aircraft

5. Arado Ar 234 Blitz - German jet bomber


6. Blomm Voss Bv.141 - the prototype of the German reconnaissance aircraft

7. Gotha Go 244 - German medium military transport aircraft


8. Dornier Do.17 - German twin-engine medium bomber


9. Dornier Do.217 - German multipurpose bomber

10. Messerschmitt Bf.108 Typhoon - German all-metal single-engine monoplane


11. Messerschmitt Bf.109 - German single-engine piston fighter-low-wing


12. Messerschmitt Bf.110 - German twin-engine heavy fighter


13. Messerschmitt Me.163 - German missile fighter-interceptor


14. Messerschmitt Me.210 - German heavy fighter


15. Messerschmitt Me.262 - German turbojet fighter, bomber and reconnaissance aircraft

16. Messerschmitt Me.323 Giant - German heavy military transport aircraft with a payload capacity of up to 23 tons, the heaviest land aircraft


17. Messerschmitt Me.410 - German heavy fighter-bomber


18. Focke-Wulf Fw.189 - twin-engine twin-boom triple tactical reconnaissance aircraft


19. Focke-Wulf Fw.190 - German single-seat single-engine piston monoplane fighter


20. Focke-Wulf Ta 152 - German high-altitude interceptor


21. Focke-Wulf Fw 200 Condor - German 4-engine long-range multipurpose aircraft


22. Heinkel He-111 - German medium bomber


23. Heinkel He-162 - German single-engine jet fighter


24. Heinkel He-177 - German heavy bomber, twin-engine all-metal monoplane


25. Heinkel He-219 Uhu - twin-engine piston night fighter equipped with ejection seats


26. Henschel Hs.129 - German single-seat twin-engine specialized attack aircraft


27. Fieseler Fi-156 Storch - a small German aircraft


28. Junkers Ju-52 - German passenger and military transport aircraft


29. Junkers Ju-87 - German two-seat dive bomber and attack aircraft


30. Junkers Ju-88 - German multi-purpose aircraft


31. Junkers Ju-290 - German long-range naval reconnaissance (nicknamed "Flying Cabinet")

From the moment aircraft turned from single enthusiast designs into more or less mass-produced and practical aircraft, aviation has earned the closest attention of the military, eventually becoming an integral part of the military doctrine of most developed countries.

The more difficult were the losses of the first days of the Great Patriotic War, when the vast majority of aircraft were destroyed before they even got off the ground. However, the current situation became the best incentive for the development of aircraft construction in all classes - it was necessary not only to replenish the Air Force fleet. In the current critical situation, with an acute shortage of time and resources, create fundamentally different aircraft that could at least fight on equal terms with the Luftwaffe machines, and ideally surpass them.

combat teacher

One of the most recognizable Soviet aircraft of the Great Patriotic War, which brought a huge contribution to the Victory, was the primitive biplane U-2, later renamed Po-2. This two-seat airplane was originally conceived for primary piloting training, and practically could not carry any payload - neither the dimensions of the aircraft, nor its design, nor its take-off weight, nor a small 110-horsepower engine allowed. But the U-2 coped remarkably well with the role of a “training desk” all its life.


However, quite unexpectedly for the U-2, they found quite combat use. Equipped with silencers and holders for light bombs, the aircraft became a light, miniature, but stealthy and dangerous night bomber, firmly established in this role until the end of the war. Later, I even managed to carve out some free weight to install a machine gun. Prior to this, the pilots managed only with personal small arms.

air knights

Some aviation enthusiasts consider WWII to be the golden age of fighter aviation. No computers, radars, missiles with television, radio and heat guidance. Only personal skill, experience and luck.

In the late 30s, the USSR came close to a qualitative breakthrough in the production of fighters. No matter how much the capricious Ishachok I-16 was loved and mastered, if he could resist the Luftwaffe fighters, it was only due to the heroism of the pilots, and at an unrealistically high price. At the same time, in the bowels of the Soviet design bureaus, despite the rampant repressions, fundamentally different fighters were created.

The firstborn of the new approach, the MiG-1 quickly transformed into the MiG-3, which became one of the most dangerous Soviet aircraft of the Second World War, the main German enemy. The plane could accelerate over 600 km / h, and climb to a height of more than 11 kilometers, which was clearly beyond the strength of its predecessors. This is what determined the niche of the MiG-a - it showed itself perfectly as a high-altitude fighter, acting in the air defense system.

However, at altitudes up to 5000 meters, the MiG-3 began to lose in speed to enemy fighters, and in this niche it was supplemented first by the Yak-1, and then the Yak-9. These light vehicles had a large thrust-to-weight ratio and powerful enough weapons, for which they quickly earned the love of pilots, and not only domestic ones - the soldiers of the French Normandie-Neman regiment, having tested several models of fighters from different countries, opted for the Yak-9, which they received a gift from the Soviet government.

However, these relatively light Soviet aircraft had a noticeable drawback - weak armament. Most often, these were machine guns of 7.62 or 12.7 mm caliber, less often - a 20 mm cannon.

The novelty of the Lavochkin Design Bureau was devoid of this drawback - two ShVAK guns were installed on the La-5. Also on the new fighter, a return was made to air-cooled engines, which were abandoned during the creation of the MiG-1 in favor of liquid-cooled engines. The fact is that the liquid-cooled engine was much more compact - and, therefore, created less drag. The disadvantage of such an engine was its "tenderness" - a small fragment or a random bullet is enough to kill a tube or radiator of the cooling system, and the engine immediately failed. It was this feature that forced the designers to return to bulky air-cooled engines.

By that time, a new high-power engine, the M-82, had appeared, which subsequently became very widespread. However, at that time, the engine was frankly crude, and caused many problems for aircraft designers who used it on their machines.

However, the La-5 was a serious step in the development of fighters - this was noted not only by Soviet pilots, but also by Luftwaffe testers, who eventually got a captured aircraft in good condition.

flying tank

The design of aircraft during the Great Patriotic War was typical - a wooden or metal frame acting as a power set and taking on all the loads. Outside, it was covered with sheathing - fabric, plywood, metal. An engine, armor plates, and weapons were mounted inside this structure. One way or another, but according to this principle, all the aircraft of the Second World War were designed.

This aircraft became the firstborn of a new design scheme. The Ilyushin Design Bureau realized that such an approach significantly overweights the design. At the same time, the armor is strong enough and can be used as an element of the power structure of the aircraft. The new approach opened up new possibilities for the rational use of weight. This is how the IL-2 appeared - an aircraft that, because of its armor protection, was nicknamed the "flying tank".

IL-2 was an unpleasant surprise for the Germans. At first, the attack aircraft was often used as a fighter, and in this role it proved to be far from brilliant - low speed and maneuverability did not allow it to fight the enemy on equal terms, and the lack of any serious protection of the rear hemisphere quickly began to be used by Luftwaffe pilots.

And for developers, this aircraft did not become problem-free. Throughout the war, the armament of the aircraft was constantly changing, in addition, the addition of a second crew member (initially the aircraft was single) shifted the center of gravity so much back that the aircraft threatened to become uncontrollable.

However, the efforts paid off. The original armament (two 20 mm guns) was changed to a more powerful caliber - 23 mm, and then 37 mm. With such armament of the aircraft, almost everyone began to be afraid - both tanks and heavy bombers.

According to the recollections of the pilots, while firing from such guns, the plane literally hovered in the air due to recoil. The tail gunner successfully covered the rear hemisphere from fighter attacks. In addition, the aircraft could take several light bombs with it.

All this was successful, and the IL-2 became an indispensable aircraft on the battlefield, and not only the most popular and recognizable attack aircraft of the Great Patriotic War, but also the most massive combat aircraft - more than 36 thousand of them were produced in total. And if we consider that at the beginning of the war there were only 128 of them in the Air Force, then there is no doubt about its relevance.

Destroyers

A bomber has been an integral part of military aviation almost from the very beginning of its use on the battlefield. Small, large, super-large - they have always been the most technologically advanced type of combat aircraft.

One of the most recognizable Soviet aircraft of the Second World War of this type is the Pe-2. Conceived as a super-heavy fighter, over time this aircraft has changed, becoming one of the most dangerous and effective dive bombers of the war.

It is worth saying that the dive bomber, as a class of aircraft, made its debut in the Second World War. Its appearance was due to the evolution of weapons: the development of air defense systems forced the creation of more and more high-altitude bombers. However, the higher the bombing height, the lower the accuracy of the bombing. The developed tactics of using bombers meant breaking through to targets at high altitude, descending to bombing altitude, and leaving again at high altitude. The idea of ​​dive bombing was only a matter of time.

The dive bomber does not drop bombs in level flight. It literally falls on the target, and resets from a minimum height of literally hundreds of meters. The result is the highest possible accuracy. However, at low altitude, the aircraft is most vulnerable to anti-aircraft guns - and this could not but leave an imprint on its design.

It turns out that the dive bomber must combine the incompatible. It should be as compact as possible to minimize the risk of being shot down by anti-aircraft gunners. At the same time, the aircraft must be roomy enough, otherwise there will simply be nowhere to hang the bombs. Moreover, we must not forget about strength, because the loads on the aircraft structure during a dive, and especially the withdrawal from a dive, are enormous. And the failed Pe-2 fighter did an excellent job with his new role.

The "Pawn" was supplemented by his relative in the Tu-2 class. A small twin-engine bomber could "work" both from a dive and according to the classic bomber method. His problem is that at the beginning of the war the plane was very, very rare. However, the machine turned out to be so effective and successful that the number of modifications created on its basis is perhaps the maximum for Soviet aircraft of the Second World War.

Tu-2 was a bomber, attack aircraft, reconnaissance, interceptor, torpedo bomber... In addition to all this, there were several different variations that differed in range. However, these machines were far from really long-range bombers.

To Berlin!

This bomber is perhaps the most beautiful of the aircraft of the war years, making the IL-4 impossible to confuse with anyone. Despite the difficulty in control (which explains the high accident rate of these aircraft), the IL-4 was very popular among the troops and was used not only as a "land" bomber. Despite the excessive flight range, the aircraft was used in the Air Force as a torpedo bomber.

However, the IL-4 left its mark in history as the aircraft that carried out the first combat missions to Berlin. It happened in the autumn of 1941. However, soon the front line shifted to the East so much that the capital of the Third Reich became inaccessible to the IL-4, and then other planes began to “work” on it.

heavy and rare

During the Great Patriotic War, this aircraft was so rare and “closed” that it was often attacked by its own air defenses. But he performed perhaps the most difficult operations of the war.

Although the Pe-8 long-range bomber appeared in the late 30s, for a long time it was not just the most modern aircraft of this class - it was the only one. The Pe-8 had a high speed (more than 400 km / h), and the fuel supply made it possible not only to fly to Berlin and back, but also to carry large-caliber bombs, up to the five-ton FAB-5000. It was the Pe-8s that bombed Koenigsberg, Helsinki, Berlin, when the front line was dangerously close to Moscow. Because of the “working range”, the Pe-8 is sometimes called a strategic bomber, and then this class of vehicles was just in its infancy.

One of the most specific operations performed by the Pe-8 is the transportation of the People's Commissar for Foreign Affairs V. M. Molotov to the UK and the USA. The flights took place in the spring of 1942, the route crossed the occupied territories of Europe. The People's Commissar traveled on a special, passenger version of the Pe-8. In total, two such aircraft were built.

Nowadays, aircraft operate several dozen intercontinental flights daily, carrying thousands of passengers. However, in those years, such a flight was a real feat not only for pilots, but also for passengers. It's not even that there was a war, and the plane could be shot down at any moment. In the 40s, the comfort and life support systems in aircraft were very, very primitive, and navigation systems, in the modern sense, were completely absent. The navigator could only rely on radio beacons, the range of which was very limited, and there were none over the occupied territories, and on his own experience and the special instinct of the navigator - after all, on long-haul flights, he, in fact, became the main person in the plane. It depended on him whether the plane would fly to a given point, or would stray over a poorly oriented and, moreover, enemy territory. Say what you like, but the courage of Vyacheslav Mikhailovich Molotov was not to take.

Concluding this brief review of the Soviet aircraft of the Great Patriotic War, it would probably be useful to recall all those who, in conditions of hunger, cold, lack of the most necessary (often even freedom), developed all these machines, each of which was a serious step forward for all world aviation . The names of Lavochkin, Pokryshkin, Tupolev, Mikoyan and Gurevich, Ilyushin, Bartini will forever remain in world history. Behind them will forever be all those who helped the chief designers - ordinary engineers.

World War II was a war in which the air force played a key role in combat. Prior to this, aircraft could affect the results of one battle, but not the course of the entire war. A huge leap forward in the field of aerospace engineering has led to the fact that the air front has become an important part of the war effort. Since this was of great importance, the opposing nations constantly sought to develop new aircraft in order to defeat the enemy. Today we will talk about a dozen unusual aircraft from the Second World War, which you may not have even heard of.

1. Kokusai Ki-105

In 1942, during the fighting in the Pacific, Japan realized that it needed large aircraft that could deliver the provisions and ammunition needed to wage maneuver warfare against the allied forces. At the request of the government, the Japanese company Kokusai developed the Ku-7 aircraft. This huge twin-boom glider was large enough to carry light tanks. The Ku-7 was considered one of the heaviest gliders developed during World War II. When it became clear that the fighting in the Pacific was dragging on, the Japanese military leaders decided to focus on the production of fighters and bombers instead of transport aircraft. Work on the improvement of the Ku-7 continued, but at a slow pace.

In 1944, the Japanese war effort began to fail. Not only did they quickly lose ground to the rapidly advancing allied forces, but they also faced a fuel crisis. Most of the Japanese oil industry facilities were either captured or were short of materials, so the military was forced to start looking for alternatives. At first, they planned to use pine nuts to produce a substitute for petroleum feedstock. Unfortunately, the process dragged on and led to massive deforestation. When this plan failed miserably, the Japanese decided to supply fuel from Sumatra. The only way to do this was to use the long forgotten Ku-7 aircraft. Kokusai fitted the airframe with two engines, expansion tanks, essentially creating the Ki-105's flying fuel tank.

The plan initially had a lot of flaws. First, to get to Sumatra, the Ki-105 had to use up all of its fuel. Secondly, the Ki-105 aircraft could not carry crude oil, so the fuel had to be extracted and processed at the oilfield first. (The Ki-105 only ran on refined fuel.) Thirdly, the Ki-105 would use up 80% of its fuel during its return flight, leaving nothing for the military. Fourth, the Ki-105 was slow and unmaneuverable, making it easy prey for Allied fighters. Fortunately for the Japanese pilots, the war ended and the Ki-105 program was cancelled.

2. Henschel Hs-132

At the start of World War II, Allied forces were terrorized by the infamous Ju-87 Stuka dive bomber. The Ju-87 Stuka dropped bombs with incredible accuracy, resulting in huge casualties. However, as Allied aircraft reached higher performance standards, the Ju-87 Stuka proved unable to compete with the enemy's fast and agile fighters. Not wanting to abandon the idea of ​​picketing bombers, the German air command ordered the creation of a new jet aircraft.

The design of the bomber proposed by Henschel was quite simple. Henschel's engineers managed to create an aircraft that was incredibly fast, especially when diving. Due to the emphasis on speed and dive performance, the Hs-132 had a number of unusual features. The jet engine was located on top of the aircraft. This, along with the narrow fuselage, required the pilot to take a rather odd position while flying the bomber. The Hs-132 pilots had to lie on their stomachs and look out the small glassed-in nose to see where to fly.

The prone position helped the pilot counteract the force that created the g-force, especially when he quickly climbed to avoid hitting the ground. Unlike most of the German experimental aircraft produced at the end of the war, the Hs-132 could have caused a lot of problems for the Allies if produced in large numbers. Luckily for the Allied ground forces, Soviet soldiers took over the Henschel factory before the prototypes were completed.

3. Blohm & Voss Bv 40

The United States Air Force and British Bomber Command played a key role in the Allied victory. The air forces of these two countries carried out countless raids on German troops, in fact, depriving them of the ability to wage war. By 1944, Allied aircraft were bombing German factories and cities almost unhindered. Faced with a significant decrease in the effectiveness of the Luftwaffe (the air force of Nazi Germany), German aircraft manufacturers began to come up with ways to counter enemy air attacks. One of them was the creation of the Bv 40 aircraft (the creation of the mind of the famous engineer Richard Vogt). The Bv 40 is the only known fighter glider.

Given the decline in the technical and material capabilities of the German aircraft industry, Vogt designed the glider as simply as possible. It was made of metal (cabin) and wood (the rest). Even though the Bv 40 could be built even by a person without special skills and education, Vogt wanted to make sure that the glider would not be so easily shot down. Since it did not need an engine, its fuselage was very narrow. Due to the recumbent position of the pilot, the front of the glider was significantly reduced. Vogt hoped that the high speed and small size of the glider would make it invulnerable.

Bv 40 was lifted into the air by two Bf 109 fighters. Once at the appropriate height, the towing aircraft "released" the glider. After that, the Bf 109 pilots began their attack, to which the Bv 40 later joined. To develop the speed necessary for an effective attack, the glider pilot had to dive at an angle of 20 degrees. Given this, the pilot had only a few seconds to open fire on the target. The Bv 40 was equipped with two 30mm guns. Despite successful tests, for some reason the glider was not accepted into service. The German command decided to focus its efforts on creating interceptors with a turbojet engine.

4. Rotabuggy by Raoul Hafner

One of the problems that military commanders faced during World War II was the delivery of military equipment to the front lines. To address this issue, countries have experimented with different ideas. British aerospace engineer Raoul Hafner had the crazy idea to equip all vehicles with helicopter propellers.

Hafner had many ideas on how to increase the mobility of British troops. One of his first projects was the Rotachute, a small autogyro that could be dropped from a transport plane with one soldier inside. This was an attempt to replace parachutes during an airborne landing. When Hafner's idea didn't catch on, he took on two other projects, Rotabuggy and Rotatank. The Rotabuggy was eventually built and tested.

Before attaching the rotor to the jeep, Hafner first decided to check what would be left of the car after the fall. To this end, he loaded the jeep with concrete objects and dropped it from a height of 2.4 meters. The test car (it was a Bentley) was successful, after which Hafner designed the rotor and tail to make it look like a gyroplane.

The British Air Force became interested in the Hafner project and conducted the first test flight of the Rotabuggy, which ended in failure. Theoretically, the autogyro could fly, but it was extremely difficult to control them. Hafner's project failed.

5 Boeing YB-40

When the German bombing campaigns began, the Allied bomber crews faced a rather strong and well-trained enemy in the face of Luftwaffe pilots. The problem was further exacerbated by the fact that neither the British nor the Americans had effective long-range escort fighters. Under such conditions, their bombers suffered defeat after defeat. The British Bomber Command ordered night bombing while the Americans continued their daytime raids and suffered heavy losses. Finally, a way out of the situation was found. They became the creation of the YB-40 escort fighter, which was a modified model of the B-17, equipped with an incredible number of machine guns.

To create the YB-40, the US Air Force signed a contract with the Vega Corporation. The modified B-17 aircraft had two additional turrets and twin machine guns, which allowed the YB-40 to defend itself against frontal attacks.

Unfortunately, all these changes significantly increased the weight of the aircraft, which caused problems during the first test flights. In combat, the YB-40 was much slower than the rest of the bombers in the B-17 series. Due to these significant shortcomings, further work on the YB-40 project was completely discontinued.

6.Interstate TDR

The use of unmanned aerial vehicles for various purposes, sometimes highly controversial, is a hallmark of military conflicts in the 21st century. While drones are generally considered a new invention, they have been in use since World War II. While the Luftwaffe command invested in the creation of unmanned guided missiles, the United States of America was the first to put into service remotely piloted aircraft. The US Navy has invested in two projects to build unmanned aerial vehicles. The second ended with the successful birth of the "flying torpedo" TDR.

The idea to create unmanned aerial vehicles arose as early as 1936, but was not realized until the Second World War began. The engineers of the American television company RCA have developed a compact device for receiving and transmitting information, which made it possible to control the TDR using a television transmitter. The leadership of the US Navy believed that accurate weapons would be crucial in stopping Japanese shipping, so they ordered the development of an unmanned aerial vehicle. In order to reduce the use of strategic materials in the manufacture of the flying bomb, the TDR was built primarily from wood and had a simple design.

Initially, the TDR was launched from the ground by the control crew. When he reached the required height, he was taken under control by a specially modified TBM-1C Avenger torpedo bomber, which, keeping a certain distance from the TDR, directed him to the target. One squadron of Avengers flew 50 TDR missions, landing 30 successful strikes against the enemy. The Japanese troops were shocked by the actions of the Americans, as they turned out to have resorted to kamikaze tactics.

Despite the success of the strikes, the US Navy became disillusioned with the idea of ​​unmanned aerial vehicles. By 1944, the allied forces had almost complete air superiority in the Pacific theater of operations, and the need to use complex experimental weapons disappeared.

7. Douglas XB-42 Mixmaster

At the height of the Second World War, the famous American aircraft manufacturer "Douglas" decided to start developing a revolutionary bomber aircraft in order to bridge the gap between light and high-altitude heavy bombers. Douglas focused its efforts on building the XB-42 high-speed bomber capable of outrunning Luftwaffe interceptors. If the Douglas engineers had managed to make the aircraft fast enough, they could have given more of the fuselage to the bomb load, reducing the significant number of defensive machine guns that were present on almost all heavy bombers.

The XB-42 was equipped with two engines, which were located inside the fuselage, and not on the wings, and a pair of propellers rotating in different directions. Given the fact that speed was a priority, the XB-42 bomber accommodated a crew of three. The pilot and his assistant were inside separate "bubble" lights located next to each other. The scorer was located in the bow of the XB-42. Defensive weapons were reduced to a minimum. The XB-42 had two remote-controlled defensive turrets. All innovation paid off. The XB-42 was capable of speeds up to 660 kilometers per hour and contained bombs with a total weight of 3600 kilograms.

The XB-42 turned out to be an excellent front-line bomber, but by the time it was ready for mass production, the war was already over. The XB-42 project fell victim to the changing desires of the US Air Force command; he was rejected, after which the Douglas company began to create a jet-powered bomber. The XB-43 Jetmaster was successful, but did not attract the attention of the United States Air Force. Nevertheless, it became the first American jet bomber, paving the way for other aircraft of its kind.

The original XB-42 bomber is stored at the National Air and Space Museum and is currently awaiting its turn for restoration. During transport, his wings mysteriously disappeared and were never seen again.

8 General Aircraft G.A.L. 38 Fleet Shadower

Before the advent of electronics and high-precision weapons, aircraft were developed in accordance with a specific combat mission. During World War II, this need led to a number of absurd specialized aircraft, including the General Aircraft G.A.L. 38 Fleet Shadower.

At the start of World War II, Great Britain was threatened by the huge German navy (Kriegsmarine). German ships blocked the English waterways and interfered with logistics. Since the ocean is large, it was extremely difficult to scout the positions of enemy ships, especially before the advent of radar. In order to be able to track the position of the Kriegsmarine ships, the Admiralty needed surveillance aircraft that could fly at night at low speed and high altitude, reconnaissance of the positions of the enemy fleet and reporting them by radio. Two companies - "Airspeed" and "General Aircraft" - simultaneously invented two almost identical aircraft. However, the "General Aircraft" model turned out to be more strange.

Aircraft G.A.L. 38 was technically a biplane, despite the fact that it had four wings, and the length of the bottom pair was three times less than the top. The crew of the G.A.L. 38 consisted of three people - a pilot, an observer, who was located in the glazed bow, and a radio operator, located in the rear fuselage. Since planes move much faster than battleships, G.A.L. 38 was designed to fly slowly.

Like most specialized aircraft, the G.A.L. 38 eventually became unnecessary. With the invention of radar, the Admiralty decided to focus on patrol bombers (such as the Liberator and Sunderland).

9. Messerschmitt Me-328

The Me-328 aircraft was never accepted into service because the Luftwaffe and Messerschmitt could not decide on the functions that it was supposed to perform. The Me-328 was a conventional small sized fighter. Messerschmitt presented three Me-328 models at once. The first was a small non-powered fighter glider, the second was powered by pulse jet engines, and the third was powered by conventional jet engines. All of them had a similar fuselage and a simple wooden structure.

However, as Germany was desperate to find a way to turn the tide of the air war, Messerschmitt offered several Me-328 models. Hitler approved the Me-328 bomber, which had four pulse jet engines, but it was never put into production.

Caproni Campini N.1 looks and sounds very similar to a jet aircraft, but in fact it is not. This experimental aircraft was designed to bring Italy one step closer to the jet age. By 1940, Germany had already developed the world's first jet aircraft, but kept this project a closely guarded secret. For this reason, Italy was mistakenly considered the country that developed the world's first jet turbine engine.

While the Germans and the British were experimenting with the gas turbine engine that helped create the first true jet aircraft, the Italian engineer Secondo Campini decided to create a "motorjet engine" (English motorjet), which was installed in the forward fuselage. According to the principle of operation, it was very different from a real gas turbine engine.

It is curious that the Caproni Campini N.1 aircraft had a small space at the end of the engine (something like an afterburner) where the fuel combustion process took place. The N.1 engine was similar to the jet front and rear, but otherwise fundamentally different from it.

And although the design of the engine of the Caproni Campini N.1 aircraft was innovative, its performance was not particularly impressive. The N.1 was huge, bulky and unmaneuverable. The large size of the "motor-compressor air-jet engine" proved to be a deterrent to combat aircraft.

Due to its massiveness and the shortcomings of the “motor-compressor air-jet engine”, the N.1 aircraft developed a speed of no more than 375 kilometers per hour, much less than modern fighters and bombers. During the first long-range test flight, the N.1 afterburner "ate" too much fuel. For this reason, the project was closed.

All these failures did not inspire confidence in the Italian commanders, who by 1942 had more serious problems (for example, the need to defend their homeland) than wasted investments in dubious concepts. With the outbreak of World War II, testing of the Caproni Campini N.1 was completely stopped, and the aircraft was put into storage.

The Soviet Union also experimented with a similar concept, but air-jet powered aircraft were never put into mass production.

Somehow, the N.1 prototype survived World War II and is now a museum piece showing off an interesting piece of technology that, unfortunately, turned out to be a dead end.

The material was prepared by Rosemarina - based on an article from listverse.com

Copyright site © - This news belongs to the site, and are the intellectual property of the blog, protected by copyright law and cannot be used anywhere without an active link to the source. Read more - "About Authorship"


Read more:

By the beginning of the war, there were significantly more MiG-3 fighters in service than other aircraft. However, the "third" MiG was still insufficiently mastered by combatant pilots, the retraining of most of them was not completed.

In a short time, two regiments were formed on the MiG-3 with a large percentage of testers familiar with them. This partly helped in eliminating the shortcomings of piloting. But still, the MiG-3 lost even to the I-6 fighters, common at the beginning of the war. Surpassing in speed at altitudes of more than 5000 m, at low and medium altitudes, it was inferior to other fighters.

This is both a disadvantage and at the same time an advantage of the "third" MiG. MiG-3 is a high-altitude aircraft, all the best qualities of which were manifested at an altitude of over 4500 meters. It found its use as a high-altitude night fighter in the air defense system, where its large ceiling of up to 12,000 meters and speed at altitudes were decisive. So, the MiG-3 was mainly used until the end of the war, in particular, guarding Moscow.

In the very first battle over the capital, on July 22, 1941, Mark Gallay, pilot of the 2nd separate air defense fighter air squadron of Moscow, shot down an enemy plane on a MiG-3. At the beginning of the war, one of the aces-pilots Alexander Pokryshkin flew on the same plane and won his first victory.

Yak-9: the "king" of modifications

Until the end of the 1930s, the design bureau of Alexander Yakovlev produced light, mainly sports aircraft. In 1940, the Yak-1 fighter, which had excellent flight qualities, was put into production. At the beginning of the war, the Yak-1 successfully fought back the German pilots.

Already in 1942, the Yak-9 began to enter service with our Air Force. The new Soviet vehicle had high maneuverability, allowing it to conduct dynamic combat close to the enemy at low and medium altitudes.

It was the Yak-9 that turned out to be the most massive Soviet fighter of the Great Patriotic War. It was produced from 1942 to 1948, in total almost 17 thousand aircraft were built.

The Yak-9 design used duralumin instead of heavy wood, which made the aircraft lighter and left room for modifications. It was the Yak-9's ability to upgrade that became its main advantage. It had 22 major modifications, of which 15 were mass-produced. This is a front-line fighter, fighter-bomber, interceptor, escort, reconnaissance aircraft, special-purpose passenger aircraft and training aircraft.

The Yak-9U fighter, which appeared in the fall of 1944, is considered the most successful modification. Suffice it to say that his pilots called him "the killer."

La-5: disciplined soldier

At the beginning of the Great Patriotic War, German aviation had an advantage in the sky of the USSR. But in 1942, a Soviet fighter appeared that could fight on equal terms with German aircraft - this is the La-5, developed at the Lavochkin Design Bureau.

Despite its simplicity - the La-5 cockpit did not have even the most elementary instruments like the artificial horizon - the pilots immediately liked the plane.

Lavochkin's new plane had a solid construction and did not fall apart even after dozens of direct hits. At the same time, La-5 had impressive maneuverability and speed: turn time was 16.5-19 seconds, speed was over 600 km/h.

Another advantage of the La-5 is that, as a disciplined soldier, he did not perform the “corkscrew” aerobatics without a direct order from the pilot, and if he got into a tailspin, he got out of it on the first command.

La-5 fought in the sky over Stalingrad and the Kursk Bulge, ace pilot Ivan Kozhedub fought on it, it was on him that the famous Alexei Maresyev flew.

Po-2: night bomber

The Po-2 (U-2) aircraft is considered the most massive biplane in the history of world aviation. Creating a training aircraft in the 1920s, Nikolai Polikarpov did not imagine that there would be another, serious application for his unpretentious machine.

During the Great Patriotic War, the U-2 turned into an effective night bomber. Aviation regiments appeared in the Soviet Air Force, armed exclusively with U-2s. It was these biplanes that carried out more than half of all sorties of Soviet bombers during the war years.

"Sewing machines" - that's what the Germans called the U-2, bombing their units at night. One biplane could make several sorties per night, and given the maximum bomb load of 100-350 kg, the aircraft could drop more ammunition than a heavy bomber.

It was on Polikarpov's biplanes that the famous 46th Taman Guards Aviation Regiment fought. Four squadrons of 80 female pilots, 23 of which received the title of Hero of the Soviet Union. For courage and aviation skills, the Germans nicknamed the girls Nachthexen - "night witches". During the war years, the women's aviation regiment made 23,672 sorties.

In total, 11 thousand U-2 biplanes were manufactured during the war. They were produced at aircraft factory No. 387 in Kazan. Cabins for aircraft and air skis for them were mass-produced at the plant in Ryazan. Today it is the State Ryazan Instrument Plant (GRPZ), which is part of KRET.

It was not until 1959 that the U-2, renamed Po-2 in 1944 in honor of its creator, completed its thirty years of impeccable service.

IL-2: winged tank

IL-2 is the most massive combat aircraft in history, more than 36 thousand aircraft were produced in total. Il-2 attacks brought huge losses to the enemy, for which the Germans called the attack aircraft the "black death", and among our pilots as soon as they did not call this bomber - "humped", "winged tank", "concrete aircraft".

The IL-2 went into production just before the war, in December 1940. The first flight on it was made by the famous test pilot Vladimir Kokkinaki. These serial armored attack aircraft entered service at the beginning of the war.

The Il-2 attack aircraft became the main striking force of Soviet aviation. The key to excellent combat performance was a powerful aircraft engine, armored glass necessary to protect the crew, as well as rapid-fire aircraft guns and rockets.

The best enterprises of the country worked on the creation of components for the most massive attack aircraft in history, including those included today in Rostec. The leading enterprise for the production of ammunition for the aircraft was the well-known Tula Instrument Design Bureau. Transparent armored glass for glazing the IL-2 canopy was produced at the Lytkarino Optical Glass Plant. The assembly of engines for attack aircraft was carried out in the workshops of plant No. 24, today known as the Kuznetsov enterprise. Propellers for the attack aircraft were produced in Kuibyshev at the Aviaagregat plant.

Thanks to modern technologies at that time, the IL-2 became a real legend. There was a case when an attack aircraft returned from a departure and more than 600 hits were counted on it. After a quick repair, the "winged tanks" again went into battle.

Many countries entered World War II with obsolete types of combat aircraft. This concerns, first of all, the countries of the anti-fascist coalition, while the "axis" countries, which were the first to start active operations (Germany, Japan), re-equipped their aviation in advance. The qualitative superiority of the Axis aviation, which managed to gain air supremacy, over the aviation of the Western powers and the USSR largely explains the successes of the Germans and Japanese in the initial stages of World War II.

TB is short for "heavy bomber". It was created in the design bureau of A.N. Tupolev back in 1930. Equipped with four piston engines, the aircraft developed a maximum speed of less than 200 km / h. The practical ceiling was less than 4 km. Although the aircraft was armed with several (from 4 to 8) 7.62-mm machine guns, with its performance characteristics (TTX), it was an easy prey for fighters and could only be used with strong fighter cover or against such an enemy that did not expect an attack . TB-3 at low speed and flight altitude and huge size was a convenient target for anti-aircraft artillery, including at night, as it was well illuminated by searchlights. In fact, it became obsolete almost immediately after it was put into service. This was shown by the Japanese-Chinese war that began already in 1937, where TB-3s fought on the Chinese side (some with Soviet crews).

In the same 1937, the production of TB-3 ceased, and in 1939 it was officially withdrawn from service with bomber squadrons. However, its combat use continued. So, on the first day of the Soviet-Finnish war, they bombed Helsinki and achieved success there, because the Finns did not expect an attack. By the beginning of World War II, more than 500 TB-3 remained in service. Due to the huge losses of Soviet aviation in the first weeks of the war, ineffective attempts were made to use the TB-3 as a night bomber. In connection with the commissioning of more advanced machines, by the end of 1941, the TB-3 was completely retrained as a military transport aircraft.

Or ANT-40 (SB - high-speed bomber). This twin-engine monoplane was also developed at the Tupolev bureau. By the time it was put into service in 1936, it was one of the best front-line bombers in the world in terms of its performance characteristics. This was shown by the civil war that began soon in Spain. In October 1936, the USSR delivered the first 31 SB-2s to the Spanish Republic, in total there in 1936-1938. received 70 of these machines. The combat qualities of the SB-2 turned out to be quite high, although their intensive combat use led to the fact that by the time the Republic was defeated, only 19 of these aircraft had survived. Their engines turned out to be especially unreliable, so the Francoists converted captured SB-2s with French engines and used them in this form as training until 1951. SB-2s also performed well in the skies of China until 1942, although they could only be used under fighter cover - without it, they became easy prey for Japanese Zero fighters. The enemies had more advanced fighters, and by the beginning of the 40s the SB-2 was morally completely obsolete.

By the beginning of the Great Patriotic War, the SB-2 was the main aircraft of the Soviet bomber aviation - it accounted for 90% of the machines of this class. On the very first day of the war, they suffered heavy losses even at the airfields. Their combat use, as a rule, ended tragically. So, on June 22, 1941, 18 SB-2s made an attempt to strike at German crossings across the Western Bug. All 18 were shot down. On June 30, 14 SB-2s, together with a group of other aircraft, attacked German mechanized columns while crossing the Western Dvina. 11 SB-2s lost. The next day, when trying to repeat the attack in the same area, all nine SB-2s participating in it were shot down by German fighters. These failures forced the same summer to stop the production of SB-2, and the remaining such machines were used as night bombers. The effectiveness of their bombing was low. However, the SB-2 continued to be in service until 1943.

Aircraft designed by N.N. Polikarpov was the main fighter of the Soviet Air Force in the first year of the war. In total, about 10 thousand of these machines were produced, almost all of which were destroyed or crashed before the end of 1942. The I-16 had many of the virtues that emerged during the war in Spain. So, he had a retractable landing gear, he was armed with automatic aircraft 20-mm guns. But the maximum speed of 470 km / h was already clearly insufficient to fight enemy fighters in 1941. I-16s suffered heavy losses already in the sky of China from Japanese fighters in 1937-1941. But the main drawback was poor handling. The I-16 was purposely made dynamically unstable, as it was erroneously assumed that this quality would make it difficult for the enemy to fire on it. This, first of all, made it difficult for him to control his pilots and made it impossible to purposefully maneuver in battle. The plane often fell into a tailspin and crashed. The clear combat superiority of the German Me-109 and the high accident rate forced the I-16 to be taken out of production in 1942.

French fighter Morane-Saulnier MS.406

The backwardness of the I-16 is clearly visible when compared with the MS.406, which formed the basis of French fighter aircraft by the beginning of World War II, but was already noticeably inferior in terms of its performance characteristics to the German Me-109. He developed a speed of up to 480 km / h and at the time of its adoption in 1935 was a first-class aircraft. Its superiority over Soviet aircraft of the same class was reflected in Finland in the winter of 1939/40, where, piloted by Finnish pilots, they shot down 16 Soviet aircraft, losing only one of their own. But in May-June 1940, in the skies over Belgium and France in battles with German aircraft, the loss ratio turned out to be the opposite: 3:1 more for the French.

Italian Fiat CR.32 fighter

Italy, unlike the major Axis powers, had done little to modernize its air force by the start of World War II. The Fiat CR.32 biplane, put into service in 1935, remained the most massive fighter. For the war with Ethiopia, which did not have aircraft, its combat qualities were brilliant, for the civil war in Spain, where the CR.32 fought for the Francoists, it seemed satisfactory. In the air battles that began in the summer of 1940, not only with the English Hurricanes, but also with the already mentioned French MS.406s, the slow-moving and poorly armed CR.32s were absolutely helpless. Already in January 1941, he had to be removed from service.