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The most massive Soviet aircraft of the Second World War. Soviet aircraft of the Great Patriotic War. Model produced under the direction of Polikarpov
During the Second World War, the United States used thousands of military aircraft, which largely predetermined the success of their victory over Japan. Nevertheless, the aircraft themselves, which took part on the battlefields, despite the fact that about 70 years have passed since their last global use, are worthy of attention to this day.
In total, during the Second World War, 27 models of combat aircraft were used by the Americans, each of which had its own advantages and disadvantages, but there are 5 of them that should be given special attention.
- The most recognizable American aircraft of World War II is, of course, the P-51, much better known as the Mustang. For ten years, starting from 1941, 17 thousand combat aircraft were produced, which actively showed themselves in battles both over Europe and over the Pacific Ocean. An interesting fact is that the release of such a large number of aircraft was primarily associated with morally suppressing the enemy, but in reality it turned out a little differently - for approximately one downed enemy aircraft, there were two downed P-51 Mustangs. As for the technical characteristics of the aircraft, they were very modern for their time. The aircraft could easily accelerate to its cruising speed of 580 kilometers per hour, and if necessary, squeeze the maximum out of the aircraft, the pilot could accelerate the combat vehicle to 700 kilometers per hour, which in some cases exceeds the speed of even modern aircraft. Since 1984, the aircraft The P-51 Mustang was officially withdrawn from service, although de facto this happened another two decades earlier. However, the US authorities did not dispose of the planes, and now they are used by private individuals, or are in museums.
- The American Lockheed P-38 Lightning fighter is also one of the most recognizable in the theater of operations during the Second World War. For 5 years, a little more than 10 thousand copies of this combat vehicle were produced, and it should be noted that it proved to be excellent in battles over the Pacific Ocean. Unlike others, the Lockheed P-38 Lightning were simple to operate and were very reliable, however, the range of the multi-role fighter was very limited - only 750 kilometers, which is why the aircraft could only operate on its territory or as an aircraft -escort (to increase the range, additional fuel tanks were attached to it). The aircraft was called multi-purpose in view of the fact that it could be used for almost any task - bombing, strikes against enemy ground forces, as its main purpose - the destruction of enemy aircraft, and even as a reconnaissance aircraft because of its quiet sound.
- The heavy bomber Consolidated B-24 Liberator instilled real terror in its enemies. This is due to the fact that these carried a whole arsenal of bombs - the payload was more than 3.6 tons, which made it possible to subject huge areas to carpet bombing. The B-24 bomber was used exclusively in the hostilities of the Second World War, both in Europe and for the bombing of the Japanese military contingent in the Pacific Ocean, and during this time almost 18.5 thousand combat units were fired. However, the aircraft had a huge drawback in that its speed of only 350 kilometers per hour made it an easy target without adequate cover.
- The Boeing B-17 Flying Fortress, better known as the "Flying Fortress" is one of the most famous American military bombers of World War II. Four-engine fighting machine terrified at its very appearance, moreover, the aircraft was so well designed that, with a small repair, it can still perform its tasks. American warplanes of World War II B-17s had a good cruising speed - 400 km/h, and if necessary, it could be increased to 500 km/h. Nonetheless, important feature This bomber was that in order to get away from enemy fighters, it was enough for him to climb to a high altitude, and for the B-17 it was almost 11 kilometers, which made it inaccessible to enemy forces.
- American warplanes of World War II The Boeing B-29 Superfortress are perhaps the most famous. This is due for the most part not to their number, and not even to technical specifications, and these combat aircraft "became famous" for dropping atomic bombs on the Japanese cities of Hiroshima and Nagasaki, thereby applying for the first time nuclear weapon. For their time, the speed of these heavy bombers was almost fantastic - 547 km / h, despite the fact that the aircraft were loaded with 9 tons of aerial bombs. Besides, American warplanes of World War II Boeing B-29 Superfortress were practically inaccessible to enemy fighters, as they could move at an altitude of more than 12 thousand meters. To date, out of almost 4 thousand combat aircraft produced, only one has remained airworthy, and that one makes its flights extremely rarely.
Marked American military aircraft are part of a great history, and, despite the fact that today they are not in operation, they are all the most recognizable in the world, to this day.
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 company's already tiny staff 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 stealth bomber was put into operation similar design“B-2,” aerospace experts became interested in the stealth performance of its Germanic 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 problems with the engines gave Zimmerman a lot of trouble, and the Second World War completed before they could be eliminated.
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 managed to come up with various timing tactics, the Royal air Force soon realized that the turret fighter was not intended 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 heavily 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" Soviet-made, certainly 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 good system for the supply of tanks by air, most states simply surrendered. 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 Soviet Union crossed the T-60 with an aircraft and in 1942 conducted 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. new type The wing had a number of advantages: it increased maneuverability at high speeds and at high angles of attack, improved stall 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 30s and 40s he worked on new types of structures aircraft, among other things - experimented 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 a projectile rocket special purpose"MXY-7". 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.
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 aircraft 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. Low efficiency combat use was explained by 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
Produced in several modifications, the Ju 87 dive bomber became a kind of forerunner of the modern precision weapons, since the bombs were not thrown 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 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 soviet soldiers They called him "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 flight characteristics at low altitudes. 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 (
Start:The German fighter Messerschmitt Bf 109 was created around the same time
like the Spitfire. Like the English aircraft, the Bf 109 became one of the most successful examples of a combat vehicle during the war and went through a long evolutionary path: it was equipped with more and more powerful engines, improved aerodynamics, operational and flight characteristics. In terms of aerodynamics, the last major change was made in 1941 with the introduction of the Bf 109F. Further improvement of flight data was mainly due to the installation of new motors. Externally, the latest modifications of this fighter - Bf 109G-10 and K-4 differed little from the much earlier Bf 109F, although they had a number of aerodynamic improvements.
This aircraft was the best representative of the light and maneuverable combat vehicle of the Nazi Luftwaffe. Throughout almost the entire second world war, the Messerschmitt Bf 109 fighters were among the best examples of aircraft in their class, and only towards the end of the war did they begin to lose their positions. It turned out to be impossible to combine the qualities inherent in the best Western fighters, designed for a relatively high combat altitude, with the qualities inherent in the best Soviet "medium-altitude" fighters.
Like their British counterparts, the designers of the Bf 109 tried to combine a high top speed with good maneuverability and takeoff and landing qualities. But they solved this problem in a completely different way: unlike the Spitfire, the Bf 109 had a large specific load on the wing, which made it possible to obtain high speed, and to improve maneuverability, not only well-known slats were used, but also flaps, which at the right time battles could be deflected by the pilot at a small angle. The use of controlled flaps was a new and original solution. To improve takeoff and landing characteristics, in addition to automatic slats and controlled flaps, hovering ailerons were used, which worked as additional sections of the flaps; a controlled stabilizer was also used. In a word, the Bf 109 had a unique system of direct lift control, largely characteristic of modern aircraft with their inherent automation. However, in practice, many of the designers' decisions did not take root. Due to the complexity, it was necessary to abandon the controlled stabilizer, hanging ailerons, and the flap release system in battle. As a result, in terms of its maneuverability, the Bf 109 did not differ much from other fighters, both Soviet and American, although it was inferior to the best domestic aircraft. Takeoff and landing characteristics were similar.
The experience of aircraft construction shows that gradual improvement combat aircraft almost always accompanied by an increase in its weight. This is due to the installation of more powerful, and therefore heavier engines, an increase in fuel supply, an increase in the power of weapons, the necessary structural reinforcements and other related activities. In the end, there comes a time when the reserves of this design are exhausted. One of the limitations is the specific load on the wing. This, of course, is not the only parameter, but one of the most important and common to all aircraft. So, as the Spitfire fighters were modified from version 1A to XIV and Bf 109 from B-2 to G-10 and K-4, their specific wing load increased by about a third! Already in the Bf 109G-2 (1942) it was 185 kg/m2, while the Spitfire IX, which was also released in 1942, had about 150 kg/m2. For the Bf 109G-2, this wing loading was close to the limit. With its further growth, the aerobatic, maneuvering and takeoff and landing characteristics of the aircraft deteriorated sharply, despite the very effective mechanization of the wing (slats and flaps).
Since 1942, German designers have been improving their best air combat fighter under very strict weight restrictions, which greatly narrowed the possibilities for qualitative improvement of the aircraft. And the creators of the Spitfire still had sufficient reserves and continued to increase the power of the installed engines and strengthen the weapons, not particularly considering the increase in weight.
The quality of their mass production has a great influence on the aerodynamic properties of aircraft. Careless manufacturing can negate all the efforts of designers and scientists. This doesn't happen very often. Judging by the captured documents, in Germany, conducting a comparative study of the aerodynamics of German, American and British fighters at the end of the war, they came to the conclusion that the Bf 109G had the worst quality of production, and, in particular, for this reason, its aerodynamics turned out to be the worst, which With highly likely can be extended to the Bf 109K-4.
From the foregoing, it can be seen that in terms of the technical concept of creation and the aerodynamic features of the layout, each of the compared aircraft is quite original. But they also have many common features: well-streamlined shapes, careful engine cowling, well-developed local aerodynamics and aerodynamics of cooling devices.
As for the design, Soviet fighters were much simpler and cheaper to manufacture than British, German and, especially, American aircraft. Scarce materials were used in them in very limited quantities. Thanks to this, the USSR managed to ensure a high rate of aircraft production in the face of the most severe material restrictions and a lack of skilled labor. I must say that our country is in the most difficult situation. From 1941 to 1944 inclusive, a significant part of the industrial zone, where many metallurgical enterprises were located, was occupied by the Nazis. Some factories managed to be evacuated inland and set up production in new places. But a significant part of the production potential was still irretrievably lost. In addition, a large number of skilled workers and specialists went to the front. At the machines they were replaced by women and children who could not work at the appropriate level. Nevertheless, the aircraft industry of the USSR, although not immediately, was able to meet the needs of the front in aircraft.
Unlike all-metal Western fighters, wood was widely used in Soviet aircraft. However, in many power elements, which actually determined the weight of the structure, metal was used. That is why, in terms of weight perfection, the Yak-3 and La-7 practically did not differ from foreign fighters.
In terms of technological sophistication, ease of access to individual units and ease of maintenance in general, the Bf 109 and Mustang looked somewhat preferable. However, Spitfires and Soviet fighters were also well adapted to the conditions of combat operation. But in terms of such very important characteristics as the quality of equipment and the level of automation, the Yak-3 and La-7 were inferior to Western fighters, the best of which were German aircraft (not only Bf 109, but others) in terms of automation.
The most important indicator of high flight performance of the aircraft and its overall combat capability is the power plant. It is in the aircraft engine industry that the latest achievements in technology, materials, control and automation systems are first of all embodied. Engine building is one of the most science-intensive branches of the aircraft industry. Compared to an aircraft, the process of creating and fine-tuning new engines takes much more time and requires a lot of effort.
During the Second World War, England occupied a leading position in aircraft engine building. It was Rolls-Royce engines that were equipped with Spitfires and best options"Mustangs" (P-51B, C and D). It can be said without exaggeration that just the installation of the English Merlin engine, which was produced in the USA under license by Packard, made it possible to realize the great capabilities of the Mustang and brought it into the category of elite fighters. Prior to this, the R-51, although original, was a rather mediocre aircraft in terms of combat capabilities.
The peculiarity of English engines, which largely determined their excellent performance, was the use of high-grade gasoline, the conditional octane number of which reached 100-150. This made it possible to apply a large degree of air pressure (more precisely, the working mixture) into the cylinders and thereby obtain high power. The USSR and Germany could not meet the needs of aviation in such high-quality and expensive fuel. Typically, gasoline with an octane rating of 87-100 was used.
A characteristic feature that united all the engines that were on the compared fighters was the use of two-speed drive centrifugal superchargers (PTsN), providing the required altitude. But the difference between Rolls-Royce engines was that their superchargers had not one, as usual, but two successive compression stages, and even with intermediate cooling of the working mixture in a special radiator. Despite the complexity of such systems, their use turned out to be fully justified for high-altitude motors, since it significantly reduced the power losses spent by the motor for pumping. This was a very important factor.
The original system was the injection of motors DB-605, driven through a turbo coupling, which, with automatic control, smoothly adjusted the gear ratio from the motor to the blower impeller. In contrast to the two-speed drive superchargers that were on Soviet and British engines, the turbo coupling made it possible to reduce the power drop that occurred between the injection speeds.
An important advantage of German engines (DB-605 and others) was the use of direct fuel injection into the cylinders. Compared to a conventional carburetor system, this increased reliability and economy. power plant. Of the other engines, only the Soviet ASh-82FN, which was on the La-7, had a similar direct injection system.
A significant factor in improving the flight performance of the Mustang and Spitfire was that their motors had relatively short-term modes of operation at high power. In combat, the pilots of these fighters could for some time use, in addition to long-term, that is, nominal, either combat (5-15 minutes), or in emergency cases, emergency (1-5 minutes) modes. The combat, or, as it was also called, the military regime became the main one for the operation of the engine in air combat. The engines of Soviet fighters did not have high power modes at altitude, which limited the possibility of further improving their flight characteristics.
Most variants of the Mustangs and Spitfires were designed for high combat altitude, which is typical for aviation operations in the West. Therefore, their motors had sufficient altitude. German motor builders were forced to solve a complex technical problem. With a relatively large design height of the engine required for air combat in the West, it was important to provide the necessary power at low and medium altitudes required for combat operations in the East. As is known, a simple increase in altitude usually leads to increasing power losses at low altitudes. Therefore, the designers showed a lot of ingenuity and applied a number of extraordinary technical solutions. In terms of its height, the DB-605 engine occupied, as it were, an intermediate position between English and Soviet engines. To increase power at altitudes below the calculated one, an injection of a water-alcohol mixture was used (MW-50 system), which made it possible, despite the relatively low octane number of fuel, to significantly increase boost, and, consequently, power without detonation. It turned out a kind of maximum mode, which, like the emergency one, could usually be used for up to three minutes.
At altitudes above the calculated one, nitrous oxide injection (GM-1 system) could be used, which, being a powerful oxidizing agent, seemed to compensate for the lack of oxygen in a rarefied atmosphere and made it possible for some time to increase the altitude of the motor and bring its characteristics closer to those of Rolls-motors. Royce. True, these systems increased the weight of the aircraft (by 60-120 kg), significantly complicated the power plant and its operation. For these reasons, they were used separately and were not used on all Bf 109G and K.
A fighter's armament has a significant impact on the combat capability of a fighter. In terms of the composition and location of weapons, the aircraft in question differed very much. If the Soviet Yak-3 and La-7 and the German Bf 109G and K had a central location of weapons (cannons and machine guns in the forward fuselage), then the Spitfires and Mustangs had them in the wing outside the area swept by the propeller. In addition, the Mustang had only heavy machine gun armament, while other fighters also had guns, and the La-7 and Bf 109K-4 had only gun armament. In the Western theater of operations, the P-51D was intended primarily to fight enemy fighters. For this purpose, the power of his six machine guns was quite sufficient. Unlike the Mustang, the British Spitfires and the Soviet Yak-3s and La-7s fought against aircraft of any purpose, including bombers, which naturally required more powerful weapons.
Comparing the wing and central installation of weapons, it is difficult to answer which of these schemes was the most effective. But still, Soviet front-line pilots and aviation specialists, like the German ones, preferred the central one, which ensured the greatest accuracy of fire. Such an arrangement turns out to be more advantageous when an attack by an enemy aircraft is carried out from extremely short distances. Namely, this is how Soviet and German pilots usually tried to act on the Eastern Front. In the West, air battles were fought mainly at high altitude, where the maneuverability of fighters deteriorated significantly. It became much more difficult to approach the enemy at close range, and with bombers it was also very dangerous, since it was difficult for a fighter to evade the fire of air gunners due to sluggish maneuvers. For this reason, they opened fire from a long distance and the wing installation of weapons, designed for a given range of destruction, turned out to be quite comparable with the central one. In addition, the rate of fire of weapons with a wing scheme was higher than that of weapons synchronized for firing through a propeller (guns on the La-7, machine guns on the Yak-3 and Bf 109G), the armament turned out to be near the center of gravity and the consumption of ammunition had practically no effect on it. position. But one drawback was still organically inherent in the wing scheme - this is an increased moment of inertia relative to the longitudinal axis of the aircraft, which worsened the fighter's roll response to the pilot's actions.
Among the many criteria that determined the combat capability of an aircraft, the combination of its flight data was the most important for a fighter. Of course, they are not important on their own, but in combination with a number of other quantitative and qualitative indicators, such as, for example, stability, aerobatic properties, ease of operation, visibility, etc. For some classes of aircraft, training, for example, these indicators are of paramount importance. But for combat vehicles of the past war, it is flight characteristics and armament that are the main technical components of the combat effectiveness of fighters and bombers. Therefore, the designers sought, first of all, to achieve priority in flight data, or rather, in those that played a paramount role.
It is worth clarifying that the words “flight data” mean a whole range of important indicators, the main of which for fighters were maximum speed, rate of climb, range or time of a sortie, maneuverability, the ability to quickly pick up speed, sometimes a practical ceiling. Experience has shown that the technical excellence of fighters cannot be reduced to any one criterion, which would be expressed by a number, a formula, or even an algorithm designed for implementation on a computer. The question of comparing fighters, as well as the search for the optimal combination of basic flight characteristics, is still one of the most difficult. How, for example, to determine in advance what was more important - superiority in maneuverability and practical ceiling, or some advantage in maximum speed? As a rule, priority in one is obtained at the expense of the other. Where is the "golden mean" that gives the best fighting qualities? Obviously, much depends on the tactics and nature of air warfare as a whole.
It is known that the maximum speed and rate of climb significantly depend on the mode of operation of the motor. One thing is a long or nominal mode, and quite another is an emergency afterburner. This is clearly seen from the comparison maximum speeds the best fighters of the final period of the war. The presence of high power modes significantly improves flight performance, but only for a short time, otherwise damage to the motor may occur. For this reason, a very short-term emergency operation of the engine, which gave the greatest power, was not considered at that time the main one for the operation of the power plant in air combat. It was intended for use only in the most urgent, deadly situations for the pilot. This position is well confirmed by the analysis of the flight data of one of the last German piston fighters - the Messerschmitt Bf 109K-4.
The main characteristics of the Bf 109K-4 are given in a rather extensive report prepared at the end of 1944 for the German Chancellor. The report covered the state and prospects of the German aircraft industry and was prepared with the participation of the German aviation research center DVL and leading aviation firms such as Messerschmitt, Arado, Junkers. In this document, which there is every reason to consider quite serious, when analyzing the capabilities of the Bf 109K-4, all its data correspond only to the continuous operation of the power plant, and the characteristics at maximum power are not considered or even mentioned. And this is not surprising. Due to thermal overloads of the engine, the pilot of this fighter, when climbing with maximum takeoff weight, could not even use the nominal mode for a long time and was forced to reduce speed and, accordingly, power after 5.2 minutes after takeoff. When taking off with less weight, the situation did not improve much. Therefore, it is simply not necessary to talk about any real increase in the rate of climb due to the use of an emergency mode, including the injection of a water-alcohol mixture (MW-50 system).
On the above graph of the vertical rate of climb (in fact, this is the rate of climb characteristic), it is clearly visible what increase the use of maximum power could give. However, such an increase is rather formal in nature, since it was impossible to climb in this mode. Only at certain moments of the flight could the pilot turn on the MW-50 system, i.e. extreme power boost, and even then, when the cooling systems had the necessary reserves for heat removal. Thus, although the MW-50 boost system was useful, it was not vital for the Bf 109K-4 and therefore it was not installed on all fighters of this type. Meanwhile, the Bf 109K-4 data is published in the press, corresponding precisely to the emergency regime using the MW-50, which is completely uncharacteristic of this aircraft.
The foregoing is well confirmed by the combat practice of the final stage of the war. Thus, the Western press often talks about the superiority of Mustangs and Spitfires over German fighters in the Western theater of operations. On the Eastern Front, where air battles took place at low and medium altitudes, the Yak-3 and La-7 were out of competition, which was repeatedly noted by the pilots of the Soviet Air Force. And here is the opinion of the German combat pilot V. Wolfrum:
The best fighters I have seen in combat have been the North American Mustang P-51 and the Russian Yak-9U. Both fighters had a clear performance advantage over the Me-109, regardless of modification, including the Me-109K-4
Assessing the decisive role of aviation as the main striking force in the struggle for the spread of Bolshevism and the defense of the state, in the very first five-year plan, the leadership of the USSR set a course for the creation of its own, large and autonomous from other countries, the air fleet.
In the 20s, and even in the early 30s, the aviation of the USSR had a fleet of aircraft, mainly of foreign production (only Tupolev aircraft appeared - ANT-2, ANT-9 and its subsequent modifications, which becamelater the legendary U-2, etc.). The aircraft that were in service with the Red Army were multi-brand, had outdated designs and poor technical condition. air routes of the North / research of the Northern Sea Route / and the implementation of government special flights. It should be noted that civil aviationin the pre-war period, it practically did not develop, with the exception of the opening of a number of unique, "demonstrative" airlines or episodic flights of ambulance and service aviation.
In the same period, the era of airships ended, and the USSR builtin the early 30s, successful designs of "soft" (frameless) type "B" airships. Digressing, it should be noted about the development of this type in air navigation abroad.
Germany's famous rigid airshipdesign "Graf Zeppepelin" explored the North, was equipped with cabins for passengers, had a significant range and quitehigh cruising speed / up to 130 and more km / h, providedseveral Maybach-designed motors. There were even several dog teams on board the airship as part of expeditions to the North. The American airship "Akron" is the largest in the world, with a volume of 184 thousand cubic meters. m carried on board 5-7 aircraft and transported up to 200 passengers, not counting several tons of cargo at a distance of up to 17 thousand km. without landing. These airships were already safe, because. were filled with inert gas helium, and not hydrogen as at the beginning of the century. Low speed, low maneuverability, high cost, the complexity of storage and maintenance predetermined the end of the era of airships. Experiments with balloons came to an end, which proved the unsuitability of the latter for active combat operations. We needed a new generation of aviation with new technical and combat performance.
In 1930, our Moscow Aviation Institute was created - after all, the replenishment of factories, institutes and design bureaus of the aviation industry with experienced personnel was of decisive importance. The old cadres of pre-revolutionary education and experience were clearly not enough, they were thoroughly beaten out, they were in exile or in camps.
Already by the 2nd five-year plan (1933-37), aviation workers had a significant production base, a support for the further development of the air force. fleet.
In the thirties, by order of Stalin, demonstrative, but in fact test, flights of bombers "camouflaged" as civilian aircraft were made. At the same time, aviators Slepnev, Levanevsky, Kokkinaki, Molokov, Vodopyanov, Grizodubova and many others distinguished themselves.
In 1937, the Soviet fighter aviation passed combat tests in Spain and demonstrated a technical lag. AircraftPolikarpov (type I-15,16) were defeated by the latest German machines. The race to the bottom began again. Stalin gave the designersindividual tasks for new aircraft models, widely and generously dividedThere were bonuses and benefits - the designers worked tirelessly and demonstrated a high level of talent and preparedness. 
At the March 1939 Plenum of the Central Committee of the CPSU, People's Commissar of Defense Voroshilovnoted that, compared to 1934, the Air Force had grown in its personalby 138 percent ... The aircraft fleet as a whole has grown by 130 percent.
Heavy bomber aircraft, which was assigned the main role in the upcoming war with the West, has doubled in 4 years, the other types of bomber aircraft, on the contrary, have halved. Fighter aviation has increased two and a half times. Altitudeaircraft already amounted to 14-15 thousand meters. The technology for the production of aircraft and engines was put on stream, stamping and casting were widely introduced. The shape of the fuselage changed, the aircraft acquired a streamlined shape.
The use of radio on board aircraft began.
Before the war, great changes took place in the field of aviation materials science. In the pre-war period, there was a parallel development of heavy aircraft of all-metal construction with duralumin skinand light maneuverable aircraft of mixed designs: wood, steel,canvas. With the expansion of the raw material base and the development of the aluminum industry in the USSR, aluminum alloys were increasingly used in aircraft construction. There was progress in engine building. The M-25 air-cooled engines with a capacity of 715 hp, M-100 water-cooled engines with a capacity of 750 hp were created.
In early 1939, the Soviet government called a meeting in the Kremlin.
It was attended by leading designers V.Ya.Klimov, A.A.Mikulin,A.D. Shvetsov, S.V. Ilyushin, N.N. Polikarpov, A.A. Arkhangelsky, A.S. Yakovlev, the head of TsAGI and many others. Possessing a good memory, Stalin was quite well aware of the design features of aircraft, all important aviation issues were decided by Stalin. The meeting outlined measures for the further accelerated development of aviation in the USSR. Until now, history has not conclusively refuted the hypothesis that Stalin was preparing an attack on Germany in July 1941. It is on the basis of this assumption that the planning of Stalin's attack on Germany (and further for the "liberation" of the Western countries), adopted at the "historical" plenum of the Central Committee of the CPSU in August 1939 and this fact, incredible for that (or any other) time, of the sale of advanced German equipment and technology to the USSR seems to be explainable. A large delegation of Sovietaviation workers, who twice went to Germany shortly before the war, got into their hands fighters, bombers, guidance systems, and much more, which made it possible to dramatically advance the level of domestic aircraft construction. It was decided to increase the combat power of aviation, because it was from August 1939 of the year The USSR began covert mobilization and prepared strikes against Germany and Romania.
Mutual exchange of information on the state of the armed forces of the three states (England, France and the USSR), represented in Moscow in August1939, i.e. before the partition of Poland, showed that the numberfirst-line aircraft in France is 2 thousand pieces. Of these, twoa third were completely modern aircraft. By 1940, it was planned to increase the number of aircraft in France to 3000 units. Englishaviation, according to Marshal Burnet, had about 3,000 units, and the potential for production was 700 aircraft per month.German industry was mobilized only at the beginning1942, after which the number of weapons began to grow sharply.
Of all the domestic fighter aircraft ordered by Stalin, the most successful options were LAGG, MiG and Yak.The IL-2 attack aircraft delivered a lot to its designer Ilyushinneny. Made initially with rear hemisphere protection (double)he, on the eve of the attack on Germany, did not suit the customers of hisextravagance." S. Ilyushin, who did not know all of Stalin's plans, was forced to change the design to a single-seat version, i.e. bring the design closer to the "clear sky" aircraft. Hitler violated Stalin's plans and the aircraft had to be urgently returned to the original design at the beginning of the war.
On February 25, 1941, the Central Committee of the All-Union Communist Party of Bolsheviks and the Council of People's Commissars adopted a resolution "Onreorganization of the aviation forces of the Red Army. "The Decree provided for additional measures to re-equip air units. In accordance with the plans for a future war, the task was set to urgently form new air regiments, while equipping them, as a rule, with new machines. The formation of several airborne corps began.
The doctrine of war on "foreign territory" and "little bloodshed" led tothe emergence of a "clear sky" aircraft intended for the unpunishedraids on bridges, airfields, cities, factories. Before the war hundreds of thousands
young men were preparing to transfer to a new one, developed post-Stalincompetition, the SU-2 aircraft, which it was planned to manufacture 100-150 thousand pieces before the war. This required accelerated training corresponding number of pilots and technicians. SU-2 - in its essence the Soviet Yu-87, and in Russia did not stand the test of time, because. There was no "clear sky" for either country during the war.
Air defense zones were formed with fighter aircraft and anti-aircraft artillery. An unprecedented call to aviation began, voluntarily andforcibly. Almost all the few civil aviationwas mobilized in the Air Force. Dozens of aviation schools were opened, incl. super-accelerated (3-4 months) training, traditionally the officer corps at the helm or the control handle of the aircraft was replaced by a sergeant - an unusual fact and testifies to the rush to prepare for the war. Airfields (about 66 airfields) were urgently advanced to the borders, fuel, bombs, in a special secret, raids on German airfields, on the oil fields of Ploiesti were detailed ... 
On June 13, 1940, the Flight Test Institute was formed(LII), in the same period other design bureaus and research institutes were formed.In the war with the Soviet Union, the Nazis assigned a special role to theiraviation, which by this time had already won complete dominance inair in the West. Basically a plan for using aviation in the Eastwas planned the same as the war in the West: first to win the masterin the air, and then transfer forces to support the ground army.
Outlining the timing of the attack on the Soviet Union, the Nazi commandThe government set the following tasks for the Luftwaffe:
1.Sudden strike on Soviet airfields to defeatSoviet aviation.
2. To achieve complete air supremacy.
3. After solving the first two tasks, switch aviation to support the ground forces directly on the battlefield.
4. Disrupt the work of Soviet transport, make it difficult to transfertroops both in the front line and in the rear.
5. Bomb large industrial centers - Moscow, Gorky, Rybinsk, Yaroslavl, Kharkov, Tula.
Germany dealt a crushing blow to our airfields. Only for 8hours of the war were lost 1200 aircraft, occurred mass death flight personnel, storages and all stocks were destroyed. Historians noted the strange "crowding" of our aviation at airfields the day beforewar and complained about the "mistakes" and "miscalculations" of the command (i.e. Stalin)and evaluation of events. In fact, "crowding" portends planssuper-massive strike on targets and confidence in impunity, which did not happen. Air force flight crews, especially bombers, suffered heavy losses due to the lack of support fighters, there was a tragedy of the death of perhaps the most advanced and powerful air fleet inthe history of mankind, which was to be revived anew under the blows enemy.
It must be admitted that the Nazis managed to implement their air war plans in 1941 and the first half of 1942 to a large extent. Almost all available forces were thrown against the Soviet Union G Nazi aviation, including parts removed from Western Front. Atit was assumed that after the first successful operations, part of the bombsinterception and fighter formations will be returned to the Westfor the war with England. At the beginning of the war, the Nazis had not only numerical superiority. Their advantage was that the flightthe cadres who took part in the air attack have already been seriouslynew school of fighting with French, Polish and English pilots. On thetheir side also had a fair amount of experience interacting with their troops,acquired in the war against the countries of Western Europe.Old types of fighters and bombers, such as the I-15,I-16, SB, TB-3 could not compete with the latest Messerschmitts and"Junkers". However, in the unfolding dogfights even on the lipsthe dead types of aircraft, Russian pilots inflicted damage on the Germans. From 22June to July 19, Germany lost 1300 aircraft only in the air battles.
Here is what the German General Staff officer Greffat writes about this:
" Per the period from June 22 to July 5, 1941, the German air forcelost 807 aircraft of all types, and for the period from 6 to 19 July - 477.
These losses indicate that despite the surprise achieved by the Germans, the Russians managed to find the time and strength to provide decisive opposition. ".
On the very first day of the war, fighter pilot Kokorev distinguished himself by ramming an enemy fighter, the feat of the crew is known to the whole worldGastello (the latest research on this fact suggests that the ramming crew was not Gastello's crew, but was the crew of Maslov, who flew with Gastello's crew to attack enemy columns), who threw his burning car onto a cluster of German vehicles.Despite the losses, the Germans in all directions brought into battle everythingnew and new fighters and bombers. They have thrown the front4940 aircraft, including 3940 German, 500 Finnish, 500 Romanianand achieved complete air supremacy.
By October 1941, the Wehrmacht armies approached Moscow, were busycities supplying components for aircraft factories, the time has come for the evacuation of factories and design bureaus of Sukhoi, Yakovlev and others in Moscow, Ilyushin inVoronezh, all the factories of the European part of the USSR demanded the evacuation.
The release of aircraft in November 1941 was reduced by more than three and a half times. Already on July 5, 1941, the Council of People's Commissars of the USSR decided to evacuate from the central regions of the country part of the equipment of some aircraft instrument factories in order to duplicate their production in Western Siberia, and after some time, a decision had to be made about the evacuation of the entire aviation industry.
November 9, 1941 State Committee Defense approved the schedule for the restoration and start-up of evacuated factories and production plans.
The task was not only to restore the production of aircraft,but also significantly increase their quantity and quality. In December1941of the year, the aircraft production plan was completed by less than 40percent, and motors - only 24 percent.In the most difficult conditions, under bombs, in the cold, the cold of Siberian wintersbackup factories were launched one after another.technologies, new types of materials were used (not at the expense of quality), women and teenagers stood up for the machines.
Lend-lease deliveries were also of no small importance for the front. Throughout the Second World War, aircraft were delivered 4-5 percent of the total production of aircraft and other weapons produced in the USA. However, a number of materials and equipment supplied by the USA, England, were unique and indispensable for Russia (varnishes, paints, other chemical substances, devices, tools, equipment, medicines, etc.), which cannot be characterized as "minor" or secondary.
The turning point in the work of domestic aircraft factories came around March 1942. At the same time, the combat experience of our pilots grew.
Only during the period from November 19 to December 31, 1942, in the battles for Stalingrad, the Luftwaffe lost 3,000 combat aircraft. Our aviation becameact more actively and showed all its combat power in the NorthernCaucasus. Heroes of the Soviet Union appeared. This title was awardedboth for downed aircraft and for the number of sorties.
In the USSR, the squadron "Normandie-Niemen" was formed, staffed by volunteers - the French. Pilots fought on Yak planes.
The average monthly production of aircraft rose from 2.1 thousand in 1942 to 2.9 thousand in 1943. In total, in 1943, the industryproduced 35 thousand aircraft, 37 percent more than in 1942.In 1943, factories produced 49,000 engines, almost 11,000 more than in 1942.
Back in 1942, the USSR overtook Germany in the production of aircraft - the heroic efforts of our specialists and workers and the "complacency" or unpreparedness of Germany, which did not mobilize the industry in advance under the conditions of war, affected.
In the Battle of Kursk in the summer of 1943, Germany used significant amounts of aircraft, but the power of the Air Force for the first time ensured air supremacy.
By 1944, the front received about 100 aircraft daily, incl. 40 fighters.The main combat vehicles were modernized. Aircraft appeared withimproved combat qualities of Yak-3, Pe-2, Yak 9T, D, LA-5, IL-10.German designers also modernized aircraft. Appeared"Me-109F, G, G2", etc.
By the end of the war, the problem of increasing the range of fighter aircraft arose - the airfields could not keep up with the front. The designers proposed the installation of additional gas tanks on aircraft, and jet weapons began to be used. Radio communications developed, radar was used in air defense. So, on April 17, 1945, bombers of the 18th Air Army in the Koenigsberg area made 516 sorties in 45 minutes and dropped 3743 bombs with a total weight of 550 tons.
In the air battle for Berlin, the enemy took part in 1500 painful aircraft based on 40 airfields near Berlin. In history, this is the most aircraft-saturated air battle, and one should take into account the highest level combat training of both sides.The Luftwaffe fought aces who shot down 100,150 or more aircraft (a record300 downed combat aircraft).
At the end of the war, the Germans used jet aircraft, which significantly exceeded propeller-driven aircraft in speed - (Me-262, etc.). However, this did not help either. Our pilots in Berlin made 17,500 sorties and completely defeated the German air fleet.
Analyzing military experience, we can conclude that our aircraft, developed in the period 1939-1940. they had constructive reserves for subsequent modernization. It should be noted in passing that not all types of aircraft were put into service in the USSR. For example, in October 1941, the production of MiG-3 fighters was discontinued, and in 1943, the production of IL-4 bombers.
The aviation industry of the USSR produced 15,735 aircraft in 1941. In the difficult year of 1942, in the conditions of the evacuation of aviation enterprises, 25,436 aircraft were produced, in 1943 - 34,900 aircraft, in 1944 - 40,300 aircraft, in the first half of 1945, 20,900 aircraft were produced. Already in the spring of 1942, all factories evacuated from the central regions of the USSR beyond the Urals and Siberia, they fully mastered the production of aviation equipment and weapons. Most of these factories in new places in 1943 and 1944 produced several times more products than before the evacuation.
The success of the rear made it possible to strengthen the country's Air Force. By the beginning of 1944, the Air Force and aground 8818 combat aircraft, and German - 3073. In terms of the number of aircraft, the USSR surpassed Germany by 2,7 times. By June 1944, the German Air Forcealready had only 2,776 aircraft at the front, and our Air Force - 14,787. By the beginning of January 1945, our Air Force had 15,815 combat aircraft. The design of our aircraft was much simpler than that of American, German or British aircraft. This partly explains such a clear advantage in terms of the number of aircraft. Unfortunately, it is not possible to compare the reliability, durability and strength of our and German aircraft, as well as to analyze the tactical and strategic use of aviation in the war of 1941-1945. Apparently, these comparisons would not be in our favor and would conditionally reduce such a striking difference in numbers. Nevertheless, perhaps, the simplification of the design was the only way out in the absence of qualified specialists, materials, equipment and other components for the production of reliable and high-quality equipment in the USSR, especially since, unfortunately, in Russian army traditionally take "number", not skill.
Aviation armament was also improved. in 1942, a large-caliber 37 mm aircraft gun was developed, later appearedand a 45 mm cannon.
By 1942, V.Ya. Klimov developed the M-107 engine instead of the M-105P, which was adopted for installation on water-cooled fighters.
Greffoat writes: “Counting on the fact that the war with Russia, like the war in the West, would be lightning fast, Hitler assumed, after achieving the first successes in the East, to transfer bomber units, as well asthe required number of aircraft back to the West. The East mustwere to remain air connections intended for directsupport of the German troops, as well as military transport units and a certain number of fighter squadrons ... "
German aircraft, created in 1935-1936, at the beginning of the war, no longer had the possibility of radical modernization. According to German General Butler "The Russians had the advantage that in the production of weapons and ammunition they took into account all the featureswaging war in Russia and the simplicity of technology was ensured as much as possible. As a result, Russian factories produced a huge amount of weapons, which were distinguished by their great simplicity of design. Learning to wield such a weapon was relatively easy... "
The Second World War fully confirmed the maturity of domestic scientific and technical thought (this, in the end, ensured further acceleration of the introduction of jet aircraft).
Nevertheless, each of the countries went its own way in designing aircraft.
The aviation industry of the USSR produced 15,735 aircraft in 1941. In the difficult year of 1942, in the conditions of the evacuation of aviation enterprises, 25,436 aircraft were produced, in 1943 - 34,900 aircraft, for1944 - 40,300 aircraft, 20,900 aircraft were produced in the first half of 1945. Already in the spring of 1942, all factories evacuated from the central regions of the USSR beyond the Urals and to Siberia fully mastered the production of aviation equipment and weapons. Most of these factories were in new places in 1943 and 1944 years gave products several times more than before the evacuation.
In addition to its own resources, Germany possessed the resources of the conquered countries. In 1944, German factories produced 27.6 thousand aircraft, and our factories produced 33.2 thousand aircraft in the same period. In 1944, the production of aircraft exceeded the figures of 1941 by 3.8 times.
In the first months of 1945, the aviation industry was preparing technicians for the final battles. So, the Siberian Aviation Plant N 153, which produced 15 thousand fighters during the war, in January-March 1945 transferred 1.5 thousand modernized fighters to the front.
The success of the rear made it possible to strengthen the country's Air Force. By the beginning of 1944, the Air Force had 8818 combat aircraft, and the German - 3073. In terms of the number of aircraft, the USSR surpassed Germany by 2.7 times. By June 1944, the German Air Forcealready had only 2,776 aircraft at the front, and our Air Force - 14,787. By the beginning of January 1945, our Air Force had 15,815 combat aircraft. The design of our aircraft was much simpler than American, Germanor English cars. This partly explains such a clear advantage in terms of the number of aircraft. Unfortunately, it is not possible to compare the reliability, durability and strength of our and German aircraft, butalso analyze the tactical and strategic use of aviation in the war of 1941-1945. Apparently these comparisons would not be inour favor and conditionally reduce such a striking difference in numbers. Nevertheless, perhaps, the simplification of the design was the only way out in the absence of qualified specialists, materials, equipment and other components for the production of reliable and high-quality equipment in the USSR, especially since, unfortunately, in the Russian army they traditionally take "number" and not skill .
Aviation armament was also improved. in 1942, a large-caliber 37 mm aircraft gun was developed, later a 45 mm caliber gun appeared. By 1942, V.Ya. Klimov developed the M-107 engine to replace the M-105P, which was adopted for installation on water-cooled fighters.
The fundamental improvement of the aircraft is its transformationchange from propeller to jet. To increase flight speedput a more powerful engine. However, at speeds over 700 km/hspeed gain from engine power cannot be achieved. Exithouse out of position is the application of traction.Applicableturbojet / turbojet / or liquid-propellant / rocket engine / engine.the second half of the 30s in the USSR, England, Germany, Italy, later - inThe United States intensively created a jet aircraft. In 1938, lanes appeared.the world's highest, German BMW jet engines, Junkers. In 1940made test flights of the first Campini-Capro jet aircraftnor", created in Italy, later the German Me-262, Me-163 appearedXE-162. In 1941, the Gloucester aircraft with a jet was tested in England.engine, and in 1942 they tested a jet aircraft in the USA - "Airokomet". In England, a twin-engine jet aircraft "Metheor", who took part in the war. In 1945, on the plane "MeTheor-4" was set a world speed record of 969.6 km / h.
In the USSR in the initial period practical work on the creation of reactactive engines was carried out in the direction of the rocket engine. Under the guidanceS.P.Koroleva., A.F.Tsander designers A.M.Isaev, L.S.Dushkindesignedhoisted the first domestic jet engines. The pioneer of the turbojetactive engines was A.M. Lyulka.At the beginning of 1942, G. Bakhchivandzhi made the first flight to the jetactive domestic aircraft. Soon this pilot diedduring aircraft testing.Work on the creation of a practical jet aircraftresumed after the war with the creation of the Yak-15, MiG-9 using notGerman jet engines YuMO.
In conclusion, it should be noted that the Soviet Union entered the war with numerous but technically backward fighter aircraft. This backwardness was, in essence, an inevitable phenomenon for a country that had only recently embarked on the path of industrialization, which the Western European states and the United States had already traveled in the 19th century. By the mid-20s of the 20th century, the USSR was an agrarian country with a half-illiterate, mostly rural population and a meager percentage of engineering, technical and scientific personnel. Aircraft building, engine building and non-ferrous metallurgy were in their infancy. Suffice it to say that in tsarist Russia they did not produce ball bearings and carburetors for aircraft engines, aircraft electrical equipment, control and aeronautical instruments at all. Aluminium, wheel tires and even copper wire had to be purchased abroad.
Over the next 15 years, the aviation industry, together with related and raw material industries, was created practically from scratch, and simultaneously with the construction of the world's largest air force at that time.
Of course, with such a fantastic pace of development, serious costs and forced compromises were inevitable, because it was necessary to rely on the available material, technological and personnel base.
In the most difficult situation were the most complex science-intensive industries - engine building, instrumentation, radio electronics. It must be admitted that the Soviet Union was unable to overcome the lag behind the West in these areas during the pre-war and war years. The difference in "starting conditions" turned out to be too great, and the time allotted by history was too short. Until the end of the war, we produced engines created on the basis of foreign models purchased back in the 30s - Hispano-Suiza, BMW and Wright-Cyclone. Their repeated forcing led to an overstrain of the structure and a steady decrease in reliability, and, as a rule, it was not possible to bring their own promising developments to mass production. The exception was the M-82 and its further development M-82FN, thanks to which, perhaps, the best soviet fighter during the war - La-7.
During the war years, they were unable to establish in the Soviet Union the serial production of turbochargers and two-stage superchargers, multifunctional propulsion automation devices, similar to the German "commandogerat", powerful 18-cylinder air-cooled engines, thanks to which the Americans overcame the milestone in 2000, and then in 2500 hp Well, by and large, no one was seriously engaged in work on water-methanol boosting of engines. All this severely limited aircraft designers in creating fighters with higher flight performance than the enemy.
No less serious restrictions were imposed by the need to use wood, plywood and steel pipes instead of scarce aluminum and magnesium alloys. The insurmountable weight of the wooden and mixed construction made it necessary to weaken the armament, limit the ammunition load, reduce the fuel supply and save on armor protection. But there was simply no other way out, because otherwise it would not even be possible to bring the flight data of Soviet aircraft closer to the characteristics of German fighters.
For a long time, our aircraft industry compensated for the lag in quality due to quantity. Already in 1942, despite the evacuation of 3/4 of the production capacities of the aviation industry, 40% more combat aircraft were produced in the USSR than in Germany. In 1943, Germany made significant efforts to increase the production of combat aircraft, but nevertheless the Soviet Union built more of them by 29%. Only in 1944, through the total mobilization of the resources of the country and occupied Europe, did the Third Reich catch up with the USSR in the production of combat aircraft, but during this period the Germans had to use up to 2/3 of their aviation in the West, against the Anglo-American allies.
By the way, we note that for every combat aircraft produced in the USSR, there were 8 times fewer machine park units, 4.3 times less electricity and 20% fewer workers than in Germany! Moreover, more than 40% of the workers in the Soviet aviation industry in 1944 were women, and over 10% were teenagers under 18 years old.
These figures indicate that Soviet aircraft were simpler, cheaper and more technologically advanced than German ones. Nevertheless, by the middle of 1944, their best models, such as the Yak-3 and La-7 fighters, surpassed the German machines of the same type and contemporary with them in a number of flight parameters. The combination of sufficiently powerful engines with high aerodynamic and weight culture made it possible to achieve this, despite the use of archaic materials and technologies designed for simple production conditions, outdated equipment and low-skilled workers.
It can be objected that in 1944 these types accounted for only 24.8% of the total production of fighters in the USSR, and the remaining 75.2% were older types with worse flight performance. One can also recall that the Germans in 1944 were already actively developing jet aircraft, having achieved considerable success in this. The first samples of jet fighters were launched into mass production and began to enter combat units.
Nevertheless, the progress of the Soviet aircraft industry during the difficult war years is undeniable. And his main achievement is that our fighters managed to win back low and medium heights from the enemy, on which attack aircraft and short-range bombers operated - the main strike force of aviation on the front line. This ensured the successful combat work of the "silt" and Pe-2 on German defensive positions, concentration of forces and transport communications, which, in turn, contributed to the victorious offensive of the Soviet troops at the final stage of the war.
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