The best fighter of the second world. Aviation of the Second World War. military aviation of the ussr. Fighter that could fly at high altitudes

Just a story:

Warplanes are birds of prey in the sky. For more than a hundred years they have been shining in warriors and at air shows. Agree, it is difficult to take your eyes off modern multi-purpose devices stuffed with electronics and composite materials. But there's something special about World War II planes. It was an era of great victories and great aces who fought in the air, looking into each other's eyes. Engineers and aircraft designers from different countries came up with many legendary aircraft. Today we present to your attention a list of the ten most famous, most recognizable, most popular and best aircraft of the Second World War.

Supermarine Spitfire (Supermarine Spitfire)

The list of the best aircraft of the Second World War opens with the British fighter Supermarine Spitfire. He has a classic look, but a little awkward. Wings - shovels, a heavy nose, a lantern in the form of a bubble. However, it was the Spitfire that saved the Royal Air Force by stopping German bombers during the Battle of Britain. German fighter pilots, with great displeasure, found that British aircraft were in no way inferior to them, and even superior in maneuverability.

The Spitfire was developed and put into service just in time - just before the outbreak of World War II. True, an incident came out with the first battle. Due to a radar failure, the Spitfires were sent into battle with a phantom enemy and fired upon their own British fighters. But then, when the British tasted the advantages of the new aircraft, they did not use it as soon as they were used. And for interception, and for reconnaissance, and even as bombers. A total of 20,000 Spitfires were produced. For all the good things and, first of all, for saving the island during the Battle of Britain, this aircraft takes an honorable tenth place.

Heinkel He 111 is exactly the aircraft that the British fighters fought. This is the most recognizable German bomber. It cannot be confused with any other aircraft due to the characteristic shape of the wide wings. It was the wings that gave the Heinkel He 111 the nickname "flying shovel".

This bomber was created long before the war under the guise of a passenger aircraft. He showed himself very well back in the 30s, but by the beginning of World War II he began to become obsolete, both in speed and in maneuverability. For a while, he held out because of the ability to withstand heavy damage, but when the Allies conquered the sky, the Heinkel He 111 was “degraded” to an ordinary transport. This aircraft embodies the very definition of a Luftwaffe bomber, for which it receives the ninth place in our rating.

At the beginning of the Great Patriotic War, German aviation did what it wanted in the sky of the USSR. Only in 1942 did a Soviet fighter appear that could fight on an equal footing with the Messerschmitts and Focke-Wulfs. It was "La-5" developed in the design bureau Lavochkin. It was created in great haste. The plane is so simple that the cockpit does not even have the most basic instruments like the artificial horizon. But the La-5 pilots immediately liked it. In the very first test flights, 16 enemy aircraft were shot down on it.

"La-5" bore the brunt of the battles in the sky over Stalingrad and the Kursk salient. Ace Ivan Kozhedub fought on it, it was on him that the famous Alexei Maresyev flew with prostheses. The only problem of La-5 that prevented it from climbing higher in our rating is its appearance. He is completely faceless and expressionless. When the Germans first saw this fighter, they immediately gave it the nickname "new rat". And that's all, because it strongly resembled the legendary I-16 aircraft, nicknamed the "rat".

North American P-51 Mustang (North American P-51 Mustang)

The Americans in World War II participated in many types of fighters, but the most famous among them was, of course, the P-51 Mustang. The history of its creation is unusual. The British already at the height of the war in 1940 ordered aircraft from the Americans. The order was fulfilled and in 1942 the first Mustangs among the British Royal Air Force entered into battle. And then it turned out that the planes are so good that they will be useful to the Americans themselves.

The most notable feature of the R-51 Mustang is its huge fuel tanks. This made them ideal fighters for bomber escort, which they did successfully in Europe and the Pacific. They were also used for reconnaissance and assault. They even bombed a little. Especially got from the "Mustangs" to the Japanese.

The most famous US bomber of those years is, of course, the Boeing B-17 "Flying Fortress". The four-engine, heavy, machine-gunned Boeing B-17 Flying Fortress bomber spawned many heroic and fanatical stories. On the one hand, the pilots loved him for his ease of control and survivability, on the other hand, the losses among these bombers were indecently high. In one of the sorties, out of 300 Flying Fortresses, 77 did not return. Why? Here we can mention the complete and defenselessness of the crew from fire in front and an increased risk of fire. However, the main problem was the persuasion of the American generals. At the beginning of the war, they thought that if there were a lot of bombers and they were flying high, then they could do without any escort. Luftwaffe fighters disproved this misconception. The lessons they gave were harsh. The Americans and the British had to learn very quickly, change tactics, strategy and aircraft design. Strategic bombers contributed to the victory, but the cost was high. A third of the "Flying Fortresses" did not return to the airfields.

In fifth place in our ranking of the best aircraft of World War II is the main hunter for German Yak-9 aircraft. If the La-5 was a workhorse that endured the brunt of the battles of the turning point of the war, then the Yak-9 is the aircraft of victory. It was created on the basis of previous models of Yak fighters, but instead of heavy wood, duralumin was used in the design. This made the aircraft lighter and left room for modifications. What they just didn’t do with the Yak-9. Front-line fighter, fighter-bomber, interceptor, escort, reconnaissance and even courier aircraft.

On the Yak-9, Soviet pilots fought on equal terms with the German aces, who were greatly frightened by its powerful guns. Suffice it to say that our pilots affectionately nicknamed the best modification of the Yak-9U the "Killer". The Yak-9 became a symbol of Soviet aviation and the most massive Soviet fighter during World War II. At factories, sometimes 20 aircraft were assembled per day, and in total, almost 15,000 of them were produced during the war.

Junkers Ju-87 (Junkers Ju 87)

Junkers Yu-87 "Stuka" - German dive bomber. Thanks to the ability to fall vertically on the target, the Junkers laid bombs with pinpoint accuracy. Supporting a fighter attack on the target, everything in the Stuka design is subordinated to one goal - to hit the target. Air brakes did not allow to accelerate during a dive, special mechanisms diverted the dropped bomb away from the propeller and automatically brought the aircraft out of the dive.

Junkers Yu-87 - the main aircraft of the Blitzkrieg. He shone at the very beginning of the war, when Germany was marching victoriously across Europe. True, it later turned out that the Junkers were very vulnerable to fighters, so their use gradually faded away. True, in Russia, thanks to the advantage of the Germans in the air, the Stukas still managed to make war. For their characteristic non-retractable landing gear, they were nicknamed "lappets". The German pilot ace Hans-Ulrich Rudel brought additional fame to the Stukas. But despite its worldwide fame, the Junkers Ju-87 was in fourth place in the list of the best aircraft of the Second World War.

In the honorable third place in the ranking of the best aircraft of World War II is the Japanese carrier-based fighter Mitsubishi A6M Zero. This is the most famous aircraft of the Pacific War. The history of this aircraft is very revealing. At the beginning of the war, he was almost the most advanced aircraft - light, maneuverable, high-tech, with an incredible range. For the Americans, Zero was an extremely unpleasant surprise, it was head and shoulders above everything they had at that time.

However, the Japanese worldview played a cruel joke with Zero, no one thought about its protection in air combat - gas tanks burned easily, the pilots were not covered by armor, and no one thought about parachutes. When hit, the Mitsubishi A6M Zero flared up like matches, and the Japanese pilots had no chance to escape. The Americans eventually learned how to deal with Zero, they flew in pairs and attacked from above, avoiding the fight on turns. They released the new Chance Vought F4U Corsair, Lockheed P-38 Lightning and Grumman F6F Hellcat fighters. The Americans admitted their mistakes and adapted, but the proud Japanese did not. Obsolete by the end of the war, Zero became a kamikaze aircraft, a symbol of senseless resistance.

The famous Messerschmitt Bf.109 is the main fighter of World War II. It was he who reigned supreme in the Soviet sky until 1942. The exceptionally successful design allowed the Messerschmitt to impose its tactics on other aircraft. He gained excellent speed in a dive. The favorite technique of the German pilots was the "falcon strike", in which the fighter swoops down on the enemy and, after a quick attack, again goes to the height.

This aircraft also had its shortcomings. He was prevented from conquering the skies of England by a low flight range. It was also not easy to escort the Messerschmitt bombers. At low altitude, he lost his advantage in speed. By the end of the war, the Messers were hard hit by both Soviet fighters from the east and Allied bombers from the west. But the Messerschmitt Bf.109, nevertheless, entered the legends as the best fighter of the Luftwaffe. In total, almost 34,000 pieces were made. This is the second largest aircraft in history.

So, meet the winner in our ranking of the most legendary aircraft of World War II. Attack aircraft "IL-2" aka "Humpback", aka "flying tank", the Germans most often called him "black death". The IL-2 is a special aircraft, it was immediately conceived as a well-protected attack aircraft, so it was many times more difficult to shoot it down than other aircraft. There was a case when an attack aircraft returned from a flight and more than 600 hits were counted on it. After a quick repair, the "Humpbacks" again went into battle. Even if the plane was shot down, it often remained intact, the armored belly allowed it to land in an open field without any problems.

"IL-2" went through the whole war. In total, 36,000 attack aircraft were manufactured. This made the "Hunchback" the record holder, the most massive combat aircraft of all time. For its outstanding qualities, the original design and a huge role in World War II, the famous Il-2 rightfully takes first place in the ranking of the best aircraft of those years.

Once on the site, we held an Air Parade contest dedicated to the anniversary of the Victory, where readers were asked to guess the names of some of the most famous aircraft of World War II by their silhouettes. The competition has been completed, and now we are publishing photos of these combat vehicles. We offer to remember what the winners and the vanquished fought in the sky.

Edition PM

Germany

Messerschmitt Bf.109

In fact, a whole family of German combat vehicles, the total number of which (33,984 pieces) makes the 109th one of the most massive aircraft of World War II. It was used as a fighter, fighter-bomber, fighter-interceptor, reconnaissance aircraft. It was as a fighter that the Messer earned notoriety from Soviet pilots - at the initial stage of the war, Soviet fighters, such as the I-16 and LaGG, were clearly inferior in technical terms to the Bf.109 and suffered heavy losses. Only the appearance of more advanced aircraft, such as the Yak-9, allowed our pilots to fight with the "Messers" almost on an equal footing. The most massive modification of the machine was the Bf.109G ("Gustav").

Messerschmitt Bf.109

Messerschmitt Me.262

The aircraft was remembered not for its special role in the Second World War, but for the fact that it turned out to be the first-born jet aviation on the battlefield. Me.262 began to design even before the war, but Hitler's real interest in the project awakened only in 1943, when the Luftwaffe had already lost its combat power. The Me.262 possessed speed (about 850 km/h), altitude and rate of climb that were unique for its time, and therefore had serious advantages over any fighter of that time. In reality, for 150 Allied aircraft shot down, 100 Me.262s were lost. The low effectiveness of combat use was due to the "dampness" of the design, little experience in the use of jet aircraft and insufficient training of pilots.

Messerschmitt Me.262

Heinkel-111

Heinkel-111

Junkers Ju 87 Stuka

The Ju 87 dive bomber, which was produced in several modifications, became a kind of forerunner of modern precision weapons, since it threw bombs not from a great height, but from a steep dive, which made it possible to more accurately aim the ammunition. It was very effective in the fight against tanks. Due to the specifics of the application in conditions of high overloads, the car was equipped with automatic air brakes to exit the dive in case of loss of consciousness by the pilot. To enhance the psychological effect, the pilot, during the attack, turned on the "Jericho Trumpet" - a device that emitted a terrible howl. One of the most famous aces pilots who flew the Stuka was Hans-Ulrich Rudel, who left rather boastful memories of the war on the Eastern Front.

Junkers Ju 87 Stuka

Focke-Wulf Fw 189 Uhu

The tactical reconnaissance aircraft Fw 189 Uhu is interesting primarily for its unusual two-beam design, for which the Soviet soldiers nicknamed it "Rama". And it was on the Eastern Front that this reconnaissance spotter turned out to be the most useful to the Nazis. Our fighters knew well that after the "Rama" bombers would fly in and strike at reconnoitered targets. But to shoot down this slow-moving aircraft was not so easy because of its high maneuverability and excellent survivability. When approaching Soviet fighters, he could, for example, begin to describe circles of a small radius, into which high-speed cars simply could not fit.

Focke-Wulf Fw 189 Uhu

Probably the most recognizable Luftwaffe bomber was developed in the early 1930s under the guise of a civilian transport aircraft (the creation of the German Air Force was prohibited by the Treaty of Versailles). At the beginning of World War II, the Heinkel-111 was the most massive Luftwaffe bomber. He became one of the main characters in the Battle of England - it was the result of Hitler's attempt to break the will to resist the British through massive bombing raids on the cities of Foggy Albion (1940). Even then it became clear that this medium bomber was obsolete, it lacked speed, maneuverability and security. Nevertheless, the aircraft continued to be used and produced until 1944.

Allies

Boeing B-17 Flying Fortress

The American "flying fortress" during the war constantly increased its security. In addition to excellent survivability (in the form, for example, of the ability to return to base with one of four engines intact), the heavy bomber received thirteen 12.7-mm machine guns in the B-17G modification. A tactic was developed in which "flying fortresses" walked over enemy territory in a checkerboard pattern, protecting each other with crossfire. The aircraft was equipped with a high-tech Norden bombsight for that time, built on the basis of an analog computer. If the British bombed the Third Reich mainly at night, then the "flying fortresses" were not afraid to appear over Germany during daylight hours.

Boeing B-17 Flying Fortress

Avro 683 Lancaster

One of the main participants in the Allied bomber raids on Germany, a British heavy bomber of World War II. The Avro 683 Lancaster accounted for ¾ of the entire bomb load thrown by the British on the Third Reich. The carrying capacity allowed the four-engine aircraft to take on board "blockbusters" - super-heavy concrete-piercing bombs Tallboy and Grand Slam. Low security suggested the use of Lancasters as night bombers, but night bombing was not very accurate. During the day, these aircraft suffered significant losses. Lancasters took an active part in the most devastating bomb raids of World War II - on Hamburg (1943) and Dresden (1945).

Avro 683 Lancaster

North American P-51 Mustang

One of the most iconic fighters of the Second World War, which played an exceptional role in the events on the Western Front. No matter how the Allied heavy bombers defended themselves when raiding Germany, these large, low-maneuverable and relatively slow-moving aircraft suffered heavy losses from German fighter aircraft. North American, commissioned by the British government, urgently created a fighter that could not only successfully fight the Messers and Fokkers, but also have sufficient range (due to external tanks) to accompany bomber raids on the continent. When the Mustangs began to be used in this capacity in 1944, it became clear that the Germans had finally lost the air war in the West.

North American P-51 Mustang

Supermarine Spitfire

The main and most massive fighter of the British Air Force during the war, one of the best fighters of the Second World War. Its high-altitude and speed characteristics made it an equal rival to the German Messerschmitt Bf.109, and the skill of the pilots played an important role in the head-to-head battle of these two machines. Spitfires proved to be excellent, covering the evacuation of the British from Dunkirk after the success of the Nazi blitzkrieg, and then during the Battle of Britain (July-October 1940), when British fighters had to fight like German bombers He-111, Do-17, Ju 87, as well as with Bf. 109 and Bf.110.

Supermarine Spitfire

Japan

Mitsubishi A6M Raisen

At the beginning of World War II, the Japanese carrier-based fighter A6M Raisen was the best in the world in its class, even though its name contained the Japanese word "Rei-sen", that is, "zero fighter". Thanks to the external tanks, the fighter had a high flight range (3105 km), which made it indispensable for participating in raids on the ocean theater. Among the aircraft involved in the attack on Pearl Harbor were 420 A6Ms. The Americans learned lessons from dealing with the nimble, quick-climbing Japanese, and by 1943 their fighter aircraft had surpassed their once dangerous enemy.

Mitsubishi A6M Raisen

The most massive dive bomber of the USSR began to be produced even before the war, in 1940, and remained in service until the Victory. The low-wing aircraft with two engines and double fins was a very progressive machine for its time. In particular, it provided for a pressurized cabin and electric remote control (which, due to its novelty, became the source of many problems). In reality, the Pe-2 was not so often, unlike the Ju 87, used precisely as a dive bomber. Most often, he bombed areas from level flight or from a gentle, rather than deep dive.

Pe-2

The most massive combat aircraft in history (36,000 of these "silts" were produced in total) is considered a true legend of the battlefields. One of its features is a load-bearing armored hull, which replaced the frame and skin in most of the fuselage. The attack aircraft worked at heights of several hundred meters above the ground, becoming not the most difficult target for ground-based anti-aircraft weapons and an object of hunting by German fighters. The first versions of the Il-2 were built single-seat, without a side gunner, which led to rather high combat losses among aircraft of this type. And yet, the IL-2 played its role in all theaters where our army fought, becoming a powerful means of supporting ground forces in the fight against enemy armored vehicles.

IL-2

The Yak-3 was a development of the well-proven Yak-1M fighter. In the process of refinement, the wing was shortened and other design changes were made to reduce weight and improve aerodynamics. This light wooden aircraft showed an impressive speed of 650 km / h and had excellent low-altitude flight characteristics. Tests of the Yak-3 started at the beginning of 1943, and already during the battle on the Kursk Bulge, he entered the battle, where, with the help of a 20-mm ShVAK cannon and two 12.7-mm Berezin machine guns, he successfully opposed the Messerschmites and Fokkers.

Yak-3

One of the best Soviet La-7 fighters, which entered service a year before the end of the war, was a development of the LaGG-3 that met the war. All the advantages of the "ancestor" were reduced to two factors - high survivability and the maximum use of wood in the construction instead of scarce metal. However, the weak engine and heavy weight turned the LaGG-3 into an unimportant opponent of the all-metal Messerschmitt Bf.109. From LaGG-3 to OKB-21 Lavochkin they made La-5, installing a new ASh-82 engine and finalizing the aerodynamics. The modified La-5FN with a boosted engine was already an excellent combat vehicle, surpassing the Bf.109 in a number of parameters. In La-7, the weight was again reduced, and the armament was also strengthened. The plane has become very good, even remaining wooden.

La-7

U-2, or Po-2, created in 1928, by the beginning of the war was certainly a model of obsolete equipment and was not designed at all as a combat aircraft (a combat training version appeared only in 1932). However, in order to win, this classic biplane had to work as a night bomber. Its undoubted advantages are ease of operation, the ability to land outside airfields and take off from small areas, and low noise.

U-2

At low gas in the dark, the U-2 approached the enemy object, remaining unnoticed almost until the moment of bombing. Since the bombing was carried out from low altitudes, its accuracy was very high, and the "corn" inflicted serious damage on the enemy.

The article "Aerial parade of winners and losers" was published in the journal Popular Mechanics (

1. Illegitimate German


Willy Messerschmitt was at odds with General Erhard Milch, State Secretary of the German Aviation Ministry. Therefore, the designer was not admitted to the competition for the development of a promising fighter, which was supposed to replace Henkel's outdated He-51 biplane.

Messerschmitt, in order to prevent the bankruptcy of his company, in 1934 concluded an agreement with Romania to create a new machine. For which he was immediately accused of treason. The Gestapo got down to business. After the intervention of Rudolf Hess, Messerschmitt was nevertheless allowed to participate in the competition.

The designer decided to act, not paying attention to the terms of reference of the military for the fighter. He reasoned that otherwise it would turn out to be an average fighter. And, given the biased attitude towards the aircraft designer of the powerful Milch, the competition will not be won.

Willy Messerschmitt's calculation turned out to be correct. Bf.109 on all fronts of World War II was one of the best. By May 1945, Germany had produced 33,984 of these fighters. However, it is very difficult to talk briefly about their tactical and technical characteristics.

Firstly, almost 30 significantly different modifications of the Bf.109 were produced. Secondly, the characteristics of the aircraft have been constantly improved. And the Bf.109 at the end of the war was significantly better than the 1937 model fighter. But still, there were "generic features" of all these combat vehicles, which determined the style of their air combat.

Advantages:

Powerful Daimler-Benz engines made it possible to develop high speed;

The significant mass of the aircraft and the strength of the nodes made it possible to develop dive speeds unattainable for other fighters;

A large payload made it possible to achieve increased armament;

High armor protection increased the safety of the pilot.

Disadvantages:

The large mass of the aircraft reduced its maneuverability;

The location of the guns in the pylons of the wings slowed down the execution of turns;

The aircraft was ineffective in supporting bombers, since it could not use the speed advantages in this capacity;

To control the aircraft, highly trained pilots were required.
2. "I am a fighter Yak"

Before the war, Alexander Yakovlev's design bureau made a fantastic breakthrough. Until the end of the 30s, it produced light aircraft, intended mainly for sporting purposes. And in 1940, the Yak-1 fighter was put into production, in the design of which, along with aluminum, there was wood and canvas. He had excellent flying qualities. At the beginning of the war, the Yak-1 successfully repulsed the Fokers, while losing to the Messers.

But in 1942, the Yak-9 began to enter service with our Air Force, which fought the Messers on an equal footing. Moreover, the Soviet machine had a clear advantage in close combat at low altitudes. Yielding, however, in battles at high altitudes.

It is not surprising that it was the Yak-9 that turned out to be the most massive Soviet fighter. Until 1948, 16,769 Yak-9s were built in 18 modifications.

In fairness, it is necessary to note three more of our excellent aircraft - the Yak-3, La-5 and La-7. At low and medium altitudes, they outperformed the Yak-9 and beat the Bf.109. But this "trinity" was released in smaller quantities, and therefore the main burden in the fight against fascist fighters fell on the Yak-9.

Advantages:

High aerodynamic qualities, allowing dynamic combat in close proximity to the enemy at low and medium altitudes. High maneuverability.

Disadvantages:

Low armament, largely due to insufficient engine power;

Low engine resource.
3. Armed to the teeth and very dangerous

Englishman Reginald Mitchell (1895 - 1937) was a self-taught designer. He completed his first independent project - the Supermarine Type 221 fighter - in 1934. During the first flight, the car accelerated to a speed of 562 km / h and rose to a height of 9145 meters in 17 minutes. None of the fighters that existed at that time in the world could do this. No one had comparable firepower: Mitchell placed eight machine guns at once in the wing console.

In 1938, the serial production of the Supermarine Spitfire (Spitfire - "spewing fire") for the British Royal Air Force began. But the chief designer did not see this happy moment. He died of cancer at the age of 42.

Further modernization of the fighter was already carried out by the designers of Supermarine. The first production model was called the Spitfire MkI. It was equipped with a 1300-horsepower engine. There were two armament options: eight machine guns or four machine guns and two cannons.

It was the most massive British fighter, produced in the amount of 20,351 copies in various modifications. Throughout the war, the performance of the Spitfire was constantly improved.

The British fire-breathing Spitfire fully demonstrated its belonging to the elite of the world's fighters, breaking the so-called Battle of Britain in September 1940. The Luftwaffe launched a powerful air attack on London, in which 114 Dornier 17 and Heinkel 111 bombers took part, escorted by 450 Me 109 and several Me 110. They were opposed by 310 British fighters: 218 Hurricane and 92 Spitfire Mk.I. 85 enemy planes were destroyed, the vast majority in air combat. The RAF lost eight Spitfires and 21 Hurricanes.

Advantages:

Excellent aerodynamic qualities;

High speed;

Long flight range;

Excellent maneuverability at medium and high altitudes.

Great firepower;

Optional high training of pilots;

Some modifications have a high rate of climb.

Disadvantages:

Focuses only on concrete runways.
4. Comfortable "mustang"


Created by the American company North American by order of the British government in 1942, the P-51 Mustang fighter is significantly different from the three fighters we have already considered. First of all, the fact that completely different tasks were set before him. It was an escort aircraft for long-range bombers. Based on this, the Mustangs had huge fuel tanks. Their practical range exceeded 1500 kilometers. A ferry station - 3700 kilometers.

The flight range was ensured by the fact that the Mustang was the first to use a laminar wing, due to which the airflow flows around without turbulence. The Mustang, paradoxically, was a comfortable fighter. It is no coincidence that it was called the “flying Cadillac”. This was necessary so that the pilot, staying at the helm of the aircraft for several hours, did not waste his energy unnecessarily.

By the end of the war, the Mustang began to be used not only as an escort aircraft, but also as an attack aircraft, equipping it with missiles and increasing firepower.

Advantages:

Good aerodynamics;

High speed;

Long flight range;

High ergonomics.

Disadvantages:

Requires high qualification of pilots;

Low survivability against anti-aircraft artillery fire;

Vulnerability of the water cooling radiator

5. Japanese "overdo"

Paradoxically, the most massive Japanese fighter was the carrier-based Mitsubishi A6M Reisen. He was nicknamed "Zero" ("zero" - Eng.). The Japanese produced 10939 of these "zeros".

Such a great love for carrier-based fighters is due to two circumstances. Firstly, the Japanese had a huge carrier fleet - ten floating airfields. Secondly, at the end of the war, "Zero" began to be used en masse for "kamikaze" In connection with which the number of these aircraft was rapidly declining.

The terms of reference for the A6M Reisen carrier-based fighter were transferred to Mitsubishi at the end of 1937. For its time, the aircraft was supposed to be one of the best in the world. The designers were offered to create a fighter that had a speed of 500 km / h at an altitude of 4000 meters, armed with two cannons and two machine guns. Flight duration - up to 6-8 hours. Takeoff distance - 70 meters.

At the beginning of the war, the Zero dominated the Asia-Pacific region, surpassing US and British fighters in maneuverability and speed at low and medium altitudes.

On December 7, 1941, during the attack of the Japanese Navy on the American base at Pearl Harbor, the Zero fully proved their worth. Six aircraft carriers took part in the attack, on which 440 fighters, torpedo bombers, dive bombers and fighter-bombers were based. The result of the attack was disastrous for the United States.

The difference in losses in the air is most eloquent. The United States destroyed 188 aircraft, disabled - 159. The Japanese lost 29 aircraft: 15 dive bombers, five torpedo bombers and a total of nine fighters.

But by 1943, the Allies still created competitive fighters.

Advantages:

Long flight range;

Good maneuverability;

Disadvantages:

Low engine power;

Low rate of climb and flight speed.

Feature Comparison

Before comparing the same-name parameters of the considered fighters, it should be noted that this is not a completely correct matter. First of all, because different countries participating in the Second World War set different strategic tasks for their fighter aircraft. Soviet Yaks were primarily engaged in air support for ground forces. In this connection, they usually flew at low altitudes.

The American Mustang was designed to escort long-range bombers. Approximately the same goals were set for the Japanese "Zero". The British Spitfire was versatile. Equally, he acted effectively both at low altitudes and at high altitudes.

The word "fighter" is most suitable for the German "Messers", which, first of all, were supposed to destroy enemy aircraft near the front.

We present the parameters as they decrease. That is - in the first place in this "nomination" - the best aircraft. If two aircraft have approximately the same parameter, then they are separated by commas.

So:

Maximum ground speed: Yak-9, Mustang, Me.109 - Spitfire - Zero

Maximum speed at altitude: Me.109, Mustang, Spitfire - Yak-9 - Zero

Engine power: Me.109 - Spitfire - Yak-9, Mustang - Zero

Climb: Me.109, Mustang - Spitfire, Yak-9 - Zero

Practical ceiling: Spitfire - Mustang, Me.109 - Zero - Yak-9

Practical range: Zero - Mustang - Spitfire - Me.109, Yak-9

Armament: Spitfire, Mustang - Me.109 - Zero - Yak-9.

War creates a need never seen in peacetime. Countries compete to create the next most powerful weapon, and engineers sometimes resort to intricate methods for designing their killing machines. Nowhere else has this been shown more clearly than in the skies of World War II: daring aircraft designers have invented some of the strangest aircraft in human history.

At the start of World War II, the German Imperial Air Ministry stimulated the development of a tactical reconnaissance aircraft to provide information support for army operations. Two companies responded to the task. Focke-Wulf modeled a fairly standard twin-engine airplane, while Blohm & Voss miraculously came up with one of the most unusual aircraft at the time, the asymmetric BV 141.

Although at first glance it may seem that this model was dreamed of by engineers in delirium, it successfully served certain purposes. By removing the skin from the right side of the aircraft, the “BV 141” gained an incomparable field of view for the pilot and observers, especially to the right and front, as the pilots were no longer burdened by the huge engine and rotating propeller of the familiar single-engine aircraft.

The design was developed by Richard Vogt, who realized that the then aircraft already had, in fact, asymmetrical handling characteristics. With a heavy engine in the nose, the single-engine airplane experienced high torque, requiring constant attention and control. Vogt sought to compensate by introducing an ingenious asymmetric design, creating a stable reconnaissance platform that was easier to fly than most of her contemporary airliners.

Luftwaffe officer Ernst Udet praised the aircraft during a test flight at speeds up to 500 kilometers per hour. Unfortunately for Blohm & Voss, Allied bombing severely damaged one of Focke-Wulf's main factories, forcing the government to dedicate 80 percent of Blohm & Voss's production space to building Focke-Wulf aircraft. Since the already tiny staff of the company began to work for the benefit of the latter, work on the “BV 141” was stopped after the release of only 38 copies. All of them were destroyed during the war.

Another unusual Nazi project, "Horten Ho 229", was launched almost before the end of the war, after German scientists improved jet technology. By 1943, the Luftwaffe commanders realized that they had made a huge mistake by refusing to issue a long-range heavy bomber, like the American B-17 or the British Lancaster. To rectify the situation, the commander-in-chief of the German air force, Hermann Goering, put forward the demand "3x1000": to develop a bomber capable of transporting 1000 kilograms of bombs over a distance of 1000 kilometers at a speed of at least 1000 kilometers per hour.

Fulfilling the order, the Horten brothers set about designing a "flying wing" (a type of aircraft without a tail or fuselage, like later stealth bombers). In the 1930s, Walther and Raymar experimented with gliders of this type, which showed excellent handling characteristics. Using this experience, the brothers built a non-powered model to reinforce their bomber concept. The design impressed Göring, who handed over the project to the Gothaer Waggonfaebrik aircraft manufacturer for mass production. After some refinement, the Horten glider acquired a jet engine. It was also converted into a fighter aircraft for the needs of the Luftwaffe in 1945. They managed to create only one prototype, which, at the end of the war, was placed at the disposal of the allied forces.

At first, "Ho 229" was considered simply as an outlandish trophy. However, when the similarly designed B-2 stealth bomber entered service, aerospace experts became interested in the stealth performance of its German ancestor. In 2008, Northrop Grumman engineers recreated a copy of the Ho 229 based on a surviving prototype held by the Smithsonian. By emitting radar signals at frequencies used during World War II, experts discovered that the Nazi aircraft was in fact directly related to stealth technology: it had much less visibility in the radar range compared to its combat contemporaries. Quite by accident, the Horten brothers invented the first stealth fighter-bomber.

In the 1930s, Vought engineer Charles H. Zimmerman began experimenting with disc-shaped aircraft. The first flying model was the V-173, which took to the air in 1942. He had problems with the gearbox, but in general it was a durable, highly maneuverable aircraft. While his firm was churning out the famous "F4U Corsair", Zimmerman continued to work on the disk-shaped fighter that would eventually see the light of day as the "XF5U".

Military experts assumed that the new “fighter” would in many ways surpass other aircraft available at that time. Equipped with two huge Pratt & Whitney engines, the aircraft was expected to reach a high speed of about 885 kilometers per hour, decelerating to 32 kilometers per hour on landing. To give the airframe strength while keeping the weight as low as possible, the prototype was built from "metalite" - a material consisting of a thin sheet of balsa wood coated with aluminium. However, various engine problems caused Zimmerman a lot of trouble, and World War II ended before they could be fixed.

Vought did not cancel the project, but by the time the fighter was ready for testing, the US Navy decided to focus on jet aircraft. The contract with the military expired, and Vought employees tried to dispose of the XF5U, but it turned out that the metalite structure was not so easy to destroy: the demolition ball that hit the airplane only bounced off the metal. Finally, after several new attempts, the body of the aircraft caved in, and blowtorches incinerated its remains.

Of all the aircraft presented in the article, the Boulton Paul Defiant has been in service longer than others. Unfortunately, this resulted in many deaths of young pilots. The airplane appeared as a result of the delusion of the 1930s regarding the further development of the situation on the air front. The British command believed that the enemy bombers would be unprotected and mostly without reinforcements. In theory, a fighter with a powerful turret could penetrate the attack formation and destroy it from the inside. Such an arrangement of weapons would free the pilot from the duties of a shooter, allowing him to concentrate on bringing the aircraft to the optimal firing position.

And the Defiant did an excellent job during its first sorties of operations, as many unsuspecting German fighter pilots mistook the aircraft for a similar-looking Hawker Hurricane, attacking it from above or from the rear - ideal points for a machine gunner Defiant. However, the Luftwaffe pilots quickly realized what was happening, and began to attack from below and in front. With no frontal weapons and low maneuverability due to the heavy turret, the Defiant aviators suffered huge losses during the Battle of Britain. The Air Force of Foggy Albion lost almost an entire fighter squadron, and the Defiant gunners were not able to leave the plane in emergency situations.

Although the pilots were able to come up with various temporary tactics, the Royal Air Force soon realized that the turret fighter was not designed for modern air combat. The Defiant was demoted to a night fighter, after which he gained some success sneaking up and destroying enemy bombers on night missions. The rugged hull of the British was also used as a target for practice shooting and in testing the first Martin-Baker ejection seats.

In the period between the First and Second World Wars in various states, there was growing concern about the issue of defense against strategic bombing during the next hostilities. Italian general Giulio Due believed that it was impossible to defend against massive air attacks, and British politician Stanley Baldwin coined the phrase "a bomber will always break through." In response, the major powers have invested huge amounts of money in the development of "bomber destroyers" - heavy fighters designed to intercept enemy formations in the sky. The English "Defiant" failed, while the German "BF-110" performed well in various roles. And finally, among them was the American "YFM-1 Airacuda".

This aircraft was Bell's first foray into the military aircraft industry and featured many unusual features. In order to give the Airacuda the highest chance of destroying the enemy, Bell equipped it with two 37mm M-4 guns, placing them in front of the sparse pusher engines and propellers located behind them. Each gun was assigned a separate shooter, whose main duty was to manually reload it. Initially, gunners also fired weapons directly. However, the results were a disaster, and the design of the aircraft was changed, putting the control levers of the guns in the hands of the pilot.

Military strategists believed that with additional machine guns in defensive positions - in the main fuselage to repel side attacks - the aircraft would be indestructible both when attacking enemy bombers and when escorting B-17s over enemy territories. All these structural elements gave the aircraft a rather voluminous appearance, making it look like a cute cartoon airplane. The Airacuda was a real death machine that looked like it was made to be hugged.

Despite optimistic forecasts, tests revealed serious problems. The engines were prone to overheating and did not produce enough thrust. Therefore, in reality, Airacuda developed a lower maximum speed than the bombers it was supposed to intercept or protect. The original arrangement of the weapon only added to the complexity, since the gondolas in which it was placed were filled with smoke when fired, making it impossible for the machine gunners to work. On top of that, they couldn't get out of their cockpits in an emergency because the propellers were working right behind them, turning their attempt to escape into a meeting with death. As a result of these problems, the US Army Air Force only purchased 13 aircraft, none of which received a baptism of fire. The remaining gliders dispersed across the country to have the pilots add entries about the strange aircraft to their logbooks, and Bell continued to try (already more successfully) to develop a military aircraft.

Despite the arms race, military gliders were an important part of World War II aerial technology. They were lifted into the air in tow and detached near enemy territories, ensuring the rapid delivery of supplies and troops as part of airborne operations. Among all the gliders of that period, the "flying tank" "A-40" of Soviet production, of course, stood out for its design.

The countries participating in the war were looking for ways to quickly and efficiently transport tanks to the front. Transferring them with gliders seemed like a worthwhile idea, but engineers soon discovered that the tank was one of the most aerodynamically imperfect machines. After countless attempts to create a good system for delivering tanks by air, most states simply gave up. But not the USSR.

In fact, Soviet aviation had already achieved some success in landing tanks before they developed the A-40. Small vehicles like the T-27 were lifted aboard huge transport planes and dropped a few meters from the ground. With the gearbox in the neutral position, the tank landed and rolled by inertia to a stop. The problem was that the tank crew had to be delivered separately, which greatly reduced the combat effectiveness of the system.

Ideally, the tankers should have arrived in a tank and be ready for battle after a few minutes. To achieve these goals, Soviet planners turned to the ideas of American engineer John Walter Christie, who first developed the concept of a flying tank in the 1930s. Christie believed that, thanks to armored vehicles with fitted biplane wings, any war would be instantly over, since no one could defend against a flying tank.

Based on the work of John Christie, the Soviet Union crossed the T-60 with an aircraft and in 1942 made the first test flight with the brave pilot Sergei Anokhin at the helm. And although due to the aerodynamic drag of the tank, the glider had to be taken out of tow before reaching the planned height, Anokhin managed to land softly and even brought the tank back to base. Despite the enthusiastic report compiled by the pilot, the idea was rejected after the Soviet specialists realized that they did not have aircraft powerful enough to tow operational tanks (Anokhin flew with a lightweight machine - without most of the weapons and with a minimum supply of fuel). Unfortunately, the flying tank never left the ground again.

After Allied bombing began to undermine the German war effort, Luftwaffe commanders realized that their failure to develop heavy multi-engined bombers was a huge mistake. When the authorities finally established the corresponding orders, most of the German aircraft manufacturers seized on this opportunity. Among them were the Horten brothers (as noted above) and the Junkers, who already had experience in building bombers. Company engineer Hans Focke led the design of perhaps the most advanced German aircraft of World War II, the Ju-287.

In the 1930s, designers came to the conclusion that a straight-wing aircraft had a certain upper speed limit, but at that time it did not matter, since turboprop engines could not get close to these indicators anyway. However, with the development of jet technologies, everything has changed. German specialists used swept wings on early jet aircraft, such as the Me-262, which avoided the problems - air compression effects - inherent in a straight wing design. Focke took this one step further and proposed to release an aircraft with a reverse swept wing, which, he believed, would be able to defeat any air defense. The new type of wing had a number of advantages: increased maneuverability at high speeds and at high angles of attack, improved stalling characteristics and freed the fuselage from weapons and engines.

First, Focke's invention passed aerodynamic tests using a special stand; many parts of other aircraft, including captured allied bombers, were taken to make the model. The Ju-287 proved to be excellent during test flights, confirming compliance with all the declared operational characteristics. Unfortunately for Focke, interest in jet bombers quickly waned, and his project was shelved until March 1945. By then, desperate Luftwaffe commanders were looking for any fresh ideas to inflict damage on the Allied forces - production of the Ju-287 was launched in record time, but two months later the war ended, after the construction of only a few prototypes. It took another 40 years for the popularity of the reverse swept wing to begin to revive, thanks to American and Russian aerospace engineers.

George Cornelius is a famous American engineer, the developer of a number of extravagant gliders and aircraft. During the 1930s and 1940s, he worked on new types of aircraft designs, among other things, experimenting with a swept back wing (like the Ju-287). His gliders had excellent stalling characteristics and could be towed at high speeds without much braking effect on the towing aircraft. When World War II broke out, Cornelius was brought in to develop the XFG-1, one of the most specialized aircraft ever built. In essence, the "XFG-1" was a flying fuel tank.

George's plans were to produce both manned and unmanned versions of his glider, both of which could be towed by the latest bombers at their cruising speed of 400 kilometers per hour, twice the speed of most other gliders. The idea of ​​using the unmanned "XFG-1" was revolutionary. The B-29s were expected to tow the glider, pumping fuel from its tank through connected hoses. With a tank capacity of 764 gallons, the XFG-1 would have acted as a flying gas station. After emptying the fuel storage, the B-29 would detach the airframe and it would dive to the ground and crash. This scheme would significantly increase the range of the bombers, allowing raids on Tokyo and other Japanese cities. The manned "XFG-1" would have been used in a similar way, but more rationally, since the glider could be landed, and not just destroyed at the end of the fuel intake. Although it is worth considering what kind of pilot would dare to take on such a task as flying a fuel tank over a dangerous war zone.

During testing, one of the prototypes crashed, and Cornelius's plan was left without further attention when the allied forces captured the islands near the Japanese archipelago. With the new airbase layout, the need to refuel the B-29s to reach their mission goals was eliminated, taking the XFG-1 out of the game. After the war, George continued to pitch his idea to the US Air Force, but by then their interest had shifted to specialized refueling aircraft. And “XFG-1” has simply become an inconspicuous footnote in the history of military aviation.

The idea of ​​creating a flying aircraft carrier first appeared during the First World War and was tested in the interwar period. In those years, engineers dreamed of a huge airship carrying small fighters capable of leaving the mother ship to protect it from enemy interceptors. British and American experiments ended in complete failure, and the idea was eventually abandoned, as the loss of tactical value by large rigid airships became apparent.

But while American and British specialists were curtailing their projects, the Soviet Air Force was just getting ready to enter the development arena. In 1931, aviation engineer Vladimir Vakhmistrov proposed using Tupolev's heavy bombers to lift smaller fighters into the air. This made it possible to significantly increase the range and bomb load of the latter in comparison with their usual capabilities as dive bombers. Without bombs, aircraft could also defend their carriers from enemy attacks. Throughout the 1930s, Vakhmistrov experimented with different configurations, only stopping when he attached as many as five fighters to one bomber. By the time the Second World War began, the aircraft designer revised his ideas and came up with a more practical scheme of two I-16 fighter-bombers suspended from the parent TB-3.

The Soviet High Command was impressed enough with this concept to try to put it into practice. The first raid on the Romanian oil storage facilities was successful, with both fighters detaching from the aircraft carrier and striking before returning to the Soviet forward base. After such a successful start, another 30 raids were made, the most famous of which was the destruction of the bridge near Chernovodsk in August 1941. The Red Army tried for months to no avail to destroy it, until they finally activated two of Vakhmistrov's monsters. The carrier planes released their fighters, which began to bomb the previously inaccessible bridge. Despite all these victories, a few months later, the Link project was closed, and the I-16 and TB-3 were discontinued in favor of more modern models. Thus ended the career of one of the strangest - but successful - offspring of aviation in the history of mankind.

Most people are familiar with Japanese kamikaze missions using old aircraft loaded with explosives as anti-ship weapons. They even developed the MXY-7 special-purpose rocket glider. Less widely known is Germany's attempt to build a similar weapon by turning V-1 "cruise bombs" into manned "cruise missiles".

With the end of the war nearing, the Nazi high command was desperately looking for a way to interfere with Allied shipping across the English Channel. The V-1 shells had potential, but the need for extreme accuracy (which was never their advantage) led to the creation of a manned version. The German engineers managed to install a small cockpit with simple controls in the fuselage of the existing V-1, right in front of the jet engine.

Unlike ground-launched V-1 rockets, the Fi-103R manned bombs were supposed to be lifted into the air and launched from He-111 bombers. After that, the pilot needed to make out the target-ship, direct his plane at it, and then take off his feet.

German pilots did not follow the example of their Japanese colleagues and did not lock themselves in the cockpits of aircraft, but tried to escape. However, with the engine roaring just behind the cabin, the escape would probably be fatal anyway. These ghostly chances for the survival of the pilots spoiled the impression of the Luftwaffe commanders from the program, so not a single operational mission was destined to take place. However, 175 V-1 bombs were converted into Fi-103Rs, most of which ended up in Allied hands at the end of the war.

For the first time, the Messerschmitt Bf.109 took off into the sky on May 28, 1935. It was he who was destined to become not only the most massive winged machine of the Second World War, but also to acquire the status of a legend. And although the countries - opponents of Germany, of course, had their own planes, not every one of them could at least fight on equal terms with the "German". Most often, their tactical and technical characteristics could not be compared with the Messerschmitt Bf.109.

Before the start of the war, the design bureau of Alexander Yakovlev produced, basically, only sports winged cars. Only in 1940 did the Yak-1 fighter enter mass production. In addition to aluminum, canvas and wood were also used in its construction.

Yak-9 competed on equal terms with the "Messers"

When the war broke out, the Yak-1 showed its best side. He could not compete only with the Messerschmitt Bf.109. Therefore, the question of modernization arose. And in 1942, the Yak-9 appeared in the Soviet army, which could already adequately resist the "Messers". It is curious that in close combat at low altitudes the Soviet fighter was better. But at high altitudes Bf.109 "recouped".

Yak-9 became the most massive Soviet fighter. Until 1948, about 17 thousand of these winged machines were produced in 18 different variations.

Willy Messerschmitt's starting position was far from ideal. He was in a strained relationship with the Secretary of State of the German Air Ministry, General Erhard Milch. Therefore, when a competition was announced for the creation of a promising fighter, Messerschmitt had no false illusions. He understood that he needed to create an ingenious winged machine so that even the biased attitude of the commission could not affect the result.

Willie was expectedly not allowed to compete. Perhaps another person would have given up, but not him. Messerschmitt signed a contract with one of the Romanian enterprises to create an aircraft. When they found out about this, a terrible scandal erupted. The designer was accused of treason, and the Gestapo became interested in him. Only the personal intervention of Rudolf Hess allowed Willy to take part in the competition.

Messerschmitt created the best fighter by the beginning of World War II

It is interesting that in the conditions of the competition they prescribed a technical task, which the new fighter had to comply with. But Messerschmitt decided not to pay attention to him, because he considered that Germany did not need such an aircraft. And he created the fighter exactly the way he wanted to see it himself.

The designer is wrong. His Bf.109 turned out to be the best, especially at the beginning of the Second World War. At the time of the defeat of Germany, a little less than 34 thousand fighters in thirty different modifications were produced. Therefore, the 1945 model aircraft was significantly superior to its 1937 counterpart.

Of course, the British also succeeded in flying. And although Reginald Mitchell was a self-taught designer, this did not stop him from creating a decent aircraft.

His first brainchild - Supermarine Type 221 - appeared in 1934. During the test flight, the aircraft managed to accelerate to 562 km / h and climb 9145 meters in just 17 minutes. None of the winged machines of that time could boast of such outstanding results. The "Englishman" had no competitors in terms of firepower either.

In 1938, another ingenious "child" of Mitchell, the Supermarine Spitfire, was put into mass production for the British Royal Air Force. But the designer himself did not live up to this moment. He died in 1937 from cancer.

Supermarine was constantly worried, so to speak, "restyling". Work on improving the fighter was carried out by the company's designers.

So, the most massive fighter in Britain was a variation of the Supermarine Spitfire MkI. In total, over 20 thousand of these winged machines were created. This aircraft showed all its power in the Battle of Britain.

There was something to brag about and the Japanese. But unlike other countries participating in the war, their carrier-based fighter has become the most massive fighter. And it was called Mitsubishi A6M Reisen, nicknamed "Zero". At the end of the Second World War, the Japanese managed to release about 11 thousand "zeros".

The mass character of the carrier-based fighter is simply explained - Japan had an impressive aviation fleet. There is also a second reason. It was "Zero" that began to be used as a kamikaze aircraft. Naturally, their "population" is constantly declining.

The most massive fighter jet in Japan was created by Mitsubishi

Mitsubishi A6M Reisen could accelerate to 500 km / h at an altitude of 4000 meters. The duration of his flight approached the mark of 8 hours, and the takeoff was 70 meters.

By the way, it was Zero on December 7, 1941, that took part in the attack on the American base at Pearl Harbor.

The Americans were not far behind. In 1942, by order of the British government, North American created the P-51 Mustang fighter. Only his purpose was somewhat different. Unlike other winged vehicles, the Mustang was entrusted with escorting long-range bombers. Accordingly, the designers thoroughly worked on the practical range of the aircraft, increasing it to 1,500 kilometers. But the distillation was as much as 3,700 kilometers.

P-51 Mustang nicknamed "flying Cadillac"

Such a phenomenal range was achieved due to the fact that the P-51 was the first to use a laminar wing. And for the high level of comfort, the fighter was nicknamed the “flying Cadillac”.