Messerschmitt Bf 109

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The Messerschmitt Bf 109 was a World War II fighter aircraft designed by Willy Messerschmitt in the early 1930s. It was the first true modern fighter of the era, including such features as an all-metal monocoque construction, a closed canopy, and retractable landing gear.

The Bf 109 was the standard fighter of the Luftwaffe during much of World War Two, although it began to be partially replaced by the Focke-Wulf Fw 190 from 1942. The Bf 109 scored more aircraft kills in World War Two than any other Axis aircraft, and at various times served as an air superiority fighter, an escort fighter, an interceptor, a ground-attack aircraft and a reconnaissance aircraft. The Bf 109 was also produced in greater quantities than any other Axis aircraft of the war and is the most produced fighter aircraft in history, with over 31,000 units built. Although the Bf 109 had some weaknesses, including a short range and troublesome landing gear, it stayed competitive with Allied fighter aircraft until the end of the war.

Contents 1 Designation 2 Contest history 3 Design Features 4 Prototypes 5 The Contest 6 Models 6.1 Bf 109A/B/C 6.2 Bf 109D "Dora" 6.3 Bf 109E "Emil" 6.4 Bf 109F "Friedrich" 6.5 Bf 109G "Gustav" 6.6 Bf 109H 6.7 Bf 109K "Kurfürst" 6.8 Bf 109T "Trägerflugzeug" (Carrier Aircraft) 6.9 Bf 109Z "Zwilling" 6.10 Bf 109W "Wasserflugzeug" projekt 7 Combat Service with Switzerland 8 Combat Service with Yugoslavia 9 Developments after World War Two 10 Operators 11 Specifications (Messerschmitt Bf 109 G-6) 12 External links and sources 13 Related content

Designation

Bf 109 was the official Reichsluftfahrtministerium (the German Air Ministry) designation, since the design was sent in by the Bayerische Flugzeugwerke company. Because the company was renamed to Messerschmitt, some late-war aircraft actually carried the Me 109 designation stamped onto their aircraft type plates. Me 109 was the name used officially by the Luftwaffe propaganda publications as well as by the Messerschmitt company and the Luftwaffe personnel, who pronounced it 'may hundred-nine'. ME 109 (pronounced 'emm ee one-oh-nine') was the contemporary English interpretation of the designation. However, in both wartime and contemporary literature, both the "Bf" and "Me" prefixes are used, and both are considered valid and accurate.

Contest history

During 1933 the Technisches Amt (or T-Amt, the technical department of the RLM) concluded a series of research projects into the future of air combat. The result of the studies was four broad outlines for future aircraft:

• Rüstungsflugzeug I for a multi-place medium bomber
• Rüstungsflugzeug II for a tactical bomber
• Rüstungsflugzeug III for a two-seat heavy fighter
• Rüstungsflugzeug IV for a single-seat fighter

The Rüstungsflugzeug IV was intended to be an all-metal monoplane single seat fighter aircraft, or interceptor actually, replacing the Arado Ar 64 and Heinkel He 60 biplanes then in service. While it was intended the R-IV aircraft would best all others then flying, the requirements were nevertheless not terribly hard to meet.

The plane needed to have a top speed of 400 km/h at 6,000 m (250 mph at 19,500 ft) which it could maintain for 20 minutes, while staying in the air for a total of 90 minutes. It was to be powered by the new Junkers Jumo 210 engine of about 700 hp (522 kW). It also needed to be armed with at least three 7.9 mm machine guns with 1,000 rounds each, or one 20 mm cannon with 200 rounds. One other interesting specification was that the plane needed to keep wing loading below 100 kg/m², which is a way of defining the plane's ability to turn and climb. The priorities for the plane were level speed, climb speed, and then maneuverability (in that order).

In fact the R-IV specifications were not really thought up inside the T-Amt at all. In early 1933 both Heinkel and Arado had sent in privately-funded designs for a monoplane fighter, and the T-Amt simply collected the best features from both and sent them back out again, adding Focke-Wulf to the tender. In May 1934 the R-IV request was sent out and made official. Each was asked to deliver three prototypes to be delivered for head-to-head testing in late 1934.

Willy Messerschmitt was originally not invited to participate in the competition. This was mainly due to personal animosity between Messerschmitt and Erhard Milch, director of the RLM, after an earlier airliner design of his had proved a disaster in Lufthansa use. Nevertheless Messerschmitt was on very good terms with many high ranking Luftwaffe officers based on the success of the Messerschmitt Bf 108 Taifun sports plane. After a delay of several months, Bayerische Flugzeugwerke (Bavarian Aircraft Manufacturers, or BFW) for which Messerschmitt was head designer, was invited to take part in early 1935, although Milch let it be known that they would never win the contract.

Design Features

Image:Bf 109E-4.jpg Messerschmitt had already designed much of the Bf 109 by this point. Like the Bf 108, the new design was based on Messerschmitt's "lightweight construction", which essentially aimed to reduce the total number of strong parts in the aircraft as much as possible. One of the more notable examples of this was the mounting of all structural points to a strong firewall at the front of the cockpit, including the wing spars, engine mounts and landing gear. In more conventional designs these would be mounted to different points on the aircraft, with a framework distributing the load among them.

Another notable advantage of this design was that, since the landing gear was attached to the fuselage itself, it was possible to completely remove the wings of the aircraft for major servicing, if necessary, leaving the fuselage intact sitting on the landing gear. However, this had one major drawback - such a landing gear arrangement ensured a very narrow track (the distance between the main tyres) which thus made the plane very unstable in terms of balance while on the ground. In fact, the Bf 109 was notoriously difficult to take off and land, and many planes simply veered off or tipped over to one side during a seemingly perfect run. To make things worse, the landing gear struts were comparatively long. This left the nose pointing up at quite a steep angle with respect to the ground, making forward visibility during taxiing virtually zero. These landing gear-related problems plagued the Bf 109 throughout its life, and accounted for a notable proportion of losses.

Another aspect of this construction technique was the use of a single box-spar in the wing, mounted near the leading edge. Most planes of the era used two spars, near the front and rear, but the box was much stiffer torsionally, and eliminated the need for the rear spar.

Another major difference was the much higher wing loading than the other designs. While the R-IV contract called for a wing loading of less than 100 kg/m², Messerschmitt felt that this was unreasonable; with the engines available to them, the fighter would end up slower than the bombers it was tasked with catching.

A wing generates two forms of drag, parasitic drag due to its form, and induced drag which is a side effect of generating lift. The former dominates at high speeds, when the airflow hitting the wing causes drag that rises with the square of the aircraft's speed. The latter dominates at lower speeds, where the lack of airflow requires the wing to be angled into the airflow at a higher angle of attack. Since the fighter was being designed primarily for high speed flight, a smaller wing would be optimized for high speed use.

The downside of such a trade-off is that low speed flight would suffer, the smaller wing would require more airflow to generate enough lift to stay flying. In order to address this, the Bf 109 included advanced high-lift devices on the wings, including automatically opening slats on the leading edge, and fairly large camber-changing flaps on the trailing edge. When deployed, these devices effectively increase the size of the wing, making it better at low speeds and high angles of attack.

Another drawback of the high wing-loading is that the plane would require more energy to maneuver. Given the limited amount of power available, this effectively meant that the Bf 109 would not be able to turn as tightly as other designs with larger wings. The high lift devices would offset this to some degree, but they also increased drag and so slowed the plane further. Given that maneuverability was last on the RLM's wish-list, Messerschmitt was certain the benefits outweighed the drawbacks.

Prototypes

The first prototype (Versuchsflugzeug 1 or V1) was completed by May 1935, but the German engines were not yet ready. In order to get the designs into the air, the RLM acquired four Rolls-Royce Kestrel VI engines by trading Rolls-Royce a Heinkel He 70 Blitz to test their engines on. Messerschmitt received two of these engines, and started work on adapting V1 to mount it. This work was completed in August, and V1 took flight tests in September 1935. It was then sent to the Luftwaffe Test Center at Rechlin to take part in the contest.

By the late summer the Jumo engines were starting to become available, and V2 was completed with the Jumo 210A of 610 hp (448 kW) in October 1935. V3 followed, being the first to actually mount guns, but another 210 was not available and it ended up delaying the flight of V3 until May 1936. Like V1, V2 and V3 were sent to Rechlin after acceptance tests at the factory.

The flight data of these three planes were very nearly identical. The maximum airspeed was about 470 km/h at 4000 m altitude, and the service ceiling was about 8,300 m.

The Contest

After Luftwaffe acceptance trials were completed at Rechlin, the planes were moved to Travemünde for the head-to-head portion of the contest. The Heinkel design arrived first, in early February 1936, and the rest of the V1's had all arrived by the beginning of March.

Because most of the fighter pilots of the Luftwaffe were used to good-natured biplanes with open cockpits, light g-forces and easy handling, they were very critical about the Bf 109 at first. However it was soon a front-runner in the contest, as the Arado and Focke-Wulf entries proved to be hopelessly outdated. Perhaps this isn't surprising, considering that those entries had actually been designed two years earlier, and given the rate of change in aircraft design at the time, they really had little chance against the much more modern 109.

The only serious competition to the 109 was the Heinkel entry. Based on a scaled down Blitz, the He 112 proved to be similar but different. Positive aspects of the He 112 included the wide track and robustness of the landing gear, considerably better visibility from the cockpit, and a lower wing loading that led to easier landings and better maneuverability. But the Bf 109 was 30 km/h faster than the He 112 in level flight, and also was superior in climbing and diving. Still, the He 112 was the favorite of the Luftwaffe leaders.

Orders for a further ten examples of both types were placed, and they started trickling in over the next few months. However by this point the Jumo-powered examples of both designs had arrived for testing, and the 109's better streamlining and lower drag meant that it was considerably faster given the lower-power engine.

Even before the pre-production models arrived the contest was basically over. In March the RLM received news that the Spitfire had been ordered into production, and a form of mass panic broke out. On March 12 they released a document that basically contained the outcome of the contest, Bf 109 Priority Procurement. Nothing occurred over the summer to change their minds, and the RLM instructed Heinkel to re-design the He 112 radically, while ordering the Bf 109 into production.

Models

Bf 109A/B/C

The planned Bf 109A series was canceled before production begun, because of its weak armament (it was planned to have only two nose-mounted machine guns). Instead of this, the Bf 109 V4 was constructed, carrying a third MG 17, mounted behind the engine, firing through the propeller shaft. In the following three prototype planes (V5, V6, V7), the new Jumo 210B engine was installed. They also were armed with three machine guns and were identical to the Bf 109B-0 pre-production series.

The first Bf 109 model that went in serial production, the B-1, was fitted with the more powerful Jumo 210D engine. When the new Jumo 210E engine (rated at 670 hp (493 kW)) was developed, it was fitted to the cell of the Bf 109B, resulting in the Bf 109B-2. Both the B-1 and B-2 versions saw combat with the Condor Legion during the Spanish Civil War, in the process demonstrating that the armament was still inadequate. Thus the Bf 109 V8 was constructed to test the fitting of two more machine guns in the wings. In the following V9 prototype both wing guns were replaced by 20 mm MG FF cannons.

The short-lived Bf 109C series comprised the C-0 pre-production series, carrying four MG 17 machine guns; the identical C-1; and the C-2, which was armed with an additional machine gun in the nose, making a total of five MG 17 machine guns. The C-3 was tested with one 20 mm MG FF cannon in each wing, but only one prototype was ever produced.

The next model, the V10 prototype, was identical to the V8, except for its Jumo 210Ga engine (later models carried a Daimler-Benz DB600A). The V10, V11, V12 and V13 prototypes were built using Bf 109B airframes, and tested the DB600A engine with the hope of increasing the performance of the aircraft. However the DB600A was found to be unreliable, and as the improved DB601A was to soon become available the DB600A was dropped.

Bf 109D "Dora"

Developed from the V10 and V13 prototypes, the Dora was the standard version of the Bf 109 in service with the Luftwaffe during the period just before World War Two. Despite this, the type saw only limited service during the war, as all of the 235 Doras still in service at the beginning of the Polish campaign were rapidly taken out of service and replaced by the Bf 109E. Variants included D-0 and D-1 Models, both with a Junkers Jumo 210 engine and armed with two wing-mounted and two nose-mounted 7.92 mm MG 17 machine guns. The D-2 was armed with two MG 17 in the wings, and the D-3 with two 20 mm MG FF cannon in the wings.

Bf 109E "Emil"

Image:Messerschmitt Bf 109E.jpg To test the new DB601A engine, with its 1,100 hp (808 kW), two more prototypes, the V14 and V15, were built, that differed in their armament. While the V14 was armed with the two MG 17 above the engine and one 20 mm MG FF cannon in each wing, the V15 got the two MG 17 and one cannon firing through the propeller axis. The Bf 109E-0 was identical to the V14 except for the armament, as the E-0 had two additional MG 17 in the wings instead of the MG FF in the propeller shaft.

The production version E-1 kept the four MG 17 but many of them were later field modified to E-3/E-4 weapon standard by exchanging the wing-mounted MG 17 with MG-FF(/M) cannons. The E-1/B was the first operational use of a Bf 109 as fighter bomber with a 250 kg bomb carried under its fuselage. The E-2 was not built for unknown reasons.

To improve the performance of the Bf 109E, the last two real prototype planes were constructed, the V16 and V17. They got some structural improvements and stronger armament. These prototypes were the basis of the Bf 109E-3 version. They were armed with the MG 17 and one MG FF cannon in each wing. The E-3 also received heavier armor than the E-1 and optional an improved DB601Aa with 1,175 hp (875 kW). The E-3a was an export version without equipment classified as secret. Furthermore, the E3 sported a slightly different canopy, which had a rounded hood for better visibility.

The E-3 was replaced by the E-4 (with many airframes being upgraded to E-4 standards starting at beginning of the Battle of Britain) which was different in some small details, most notably by the modified MG-FF/M wing cannon and by improved head armor for the pilot. The MG FF/M fired a new and improved type of explosive shell, called Minengeschoß (or 'mine-shell') which was made by drawn steel (the same way brass cartridges are made) instead of being cast as was the usual practice. This resulted in a shell with a thin but strong wall, which hence had a larger cavity in which to pack a much larger explosive charge than was otherwise possible. The new shell required modifications to the MG FF's mechanism due to the different recoil characteristics, hence the MG FF/M.

The canopy also reverted to the older, boxy design, and stayed fairly unchanged until the G-10 (see below). The E-4 would be the base for all further Bf 109 E developments. Some E-4 and later models got a further improved 1,175 hp (875 kW) DB601N high-altitude engine resulting in a slightly changed model number like E-4/N. The DB601N was the standard engine used in most E-6 and onwards production versions.

The E-3 and E-4 saw heavy action during the Battle of Britain, especially the former. The fuel-injected DB601 engine of the Bf 109 proved most useful against the British Supermarine Spitfire and Hawker Hurricane fighters, as the British fighters used gravity carburretor engines, which would cut out under negative g forces whereas the DB601 did not. The Bf 109s thus had the initial advantage in dives, either during attack or to escape. The Spitfire proved a formidable opponent, being slightly faster and somewhat more maneuverable at medium to high speeds than the Bf 109 (the latter due to the Bf 109's high wing loading). On the question of comparative turning circles in combat Spitfires and Hurricanes benefited from their lower wing loading compared with the Bf109; 22 to 24 pounds per square foot on the RAF machines against 32 pounds per square foot for the Bf 109. Royal Aircraft Establishment tests with a captured Bf 109 showed the Spitfire's turning circle - without height loss - was 696 feet (212 m) in radius while the 109's was 885 feet (270 m) radius. The Hurricane's would be slightly tighter. This turning advantage has also been noted in surviving combat film footage. The Bf 109 enjoyed good handling near stalling speeds as it was particularly forgiving then. Firepower between the two main antagonists was comparable, with the Spitfire's eight .303 machine guns vs. the Bf 109's two 7.92mm MG17 machine guns and two 20 mm MG FF cannon. However, the MG FF occasionally jammed and had a small (60-round) ammunition capacity. To be fair, when the Spitfires were later upgraded to two 20 mm Hispano-Suiza cannon, the British initially had serious jamming problems of their own with the new weapon. RAF pilots who tested captured Bf 109s liked the engine and throttle response but criticised the high speed handling characteristics, poorer turning circle, greater force required on the control column at speed and the thick framing of the cockpit glazing which they felt created blindspots in the pilot's field of vision. It should also be noted that throughout its life the Bf 109 suffered from ground accidents due to 'swing' on takeoff and landings. It has been suggested that 5% of all 109s were lost this way. Former Czech RAF Spitfire pilots who were equipped with the Bf 109 G after World War 2 nicknamed the machine 'the Mule' indicating that the problem was never solved.

Bf 109E variants and sub-variants

• E-0 (Pre-Production Aircraft with four MG 17 7.92 mm machine guns)
• E-1 (Similar to E-0)
  • E-1/B (Bomber version of E-1)
• E-2 Not built
• E-3 (Armed with two 7.92 mm machine guns and two MG FF 20 mm cannons. Modified canopy)
• E-4 (Armor and structural improvements, MG FF/M 20 mm cannon. Return to 'normal' canopy)
• E-4/B (Bomber version of E-4, one 250 kg bomb)
  • E-4/Trop (Version of E-4 modified to serve in tropical regions)
  • E-4/N (E-4 with DB601N engine)
• E-5 (Recon version of E-3, camera equipment, two MG 17)
• E-6 (Recon version of E-4/N, camera equipment, two MG 17)
• E-7 (Similar to E-4N but with optional external fuel tank)
  • E-7/U2 (Ground attack variant of E-7)
  • E-7/Z additional GM-1 injection system, DB 601N engine required
• E-8 (long range version of E-1 using drop tank installation of E-7, four MG 17)
• E-9 (Recon version of E-8, drop tank, camera equipment, two MG 17)

Bf 109F "Friedrich"

After February 1940 an improved engine, the Daimler-Benz DB601E, was developed for use with the Bf 109. The engineers at the Messerschmitt facilities took a Bf 109E-1 airframe and installed this new powerplant. The fuselage was cleaned up and the engine cowling modified to provide improved aerodynamics. The relationship to the standard E-1 version was obvious, because the trapeziform wings were taken from the E-1, although this was later changed in the production models of the F version. This adaption became the prototype for the Bf 109F series. As the DB601E was not yet available in numbers the pre-production F-0 and the first production series F-1/F-2 got the 1,175 hp (875 kW) DB601N engine. The 1,350 hp (1005 kW) DB601E was first used in the F-3 model together with an enlarged propeller with improved performance.

Externally the Bf 109F differed from the E-series, resulting from many aerodynamic improvements. The stabilizer struts were removed, the cowling was shaped to be more streamlined, the big underwing radiators were much smaller, the opening for the supercharger was improved, the flaps were completely changed, the wingspan was increased to 9.92 m, and the wing tips now were formed elliptically, which supposedly caused some confusions with the Spitfire. The redesigned wing made the internal mounting of guns impractical, so armament was revised. The armament of the Bf 109F consisted of the two MG 17 above the engine plus a cannon firing through the propeller hub: The early F versions were equipped with the MG FF/M cannon, the F-2 got the 15 mm MG 151, and from F-4 on the 20 mm MG 151/20 was used.

The first Bf 109F planes were not well tested, and so some planes crashed or nearly crashed, due to vibrations which caused either the wing surface to curve or break, or caused the stabilizer to break away. In one such accident, the commander of JG2 "Richthofen", Wilhelm Balthasar lost his life when he was attacked by a Spitfire during a test flight. Making an evasive maneuver, his wings broke away and Balthasar was killed when his plane hit the ground. When the wreck was investigated, not a single bullet hole was found. However, the teething problems were subsequently solved, and pilots generally agreed that the F series were the best-handling of all the Bf 109 series.

Bf 109F variants and sub-variants

• F-0 (Pre-Production Aircraft)
• F-1 (Armed with one MG FF/M 20mm cannon and two MG 17 7.92 mm machine guns)
• F-2 (Armed with one MG 151 15 mm cannon and two MG 17)
  • F-2/trop tropicalized version
• F-3 (F-2 with 601E engine, small production and most upgraded to F-4 standard)
• F-4 (Armed with one MG 151/20 20mm cannon and two MG 17)
  • F-4 R1 (Two 20mm cannon in underwing packs, special purpose variant, only in small numbers)
  • F-4/Z additional GM-1 injection system
• F-5 (Recon version of F-4, only two MG 17)
• F-6 (Reconversion of F-4, improved camera equipment)

Bf 109G "Gustav"

Image:Me109g cracow aviation museum.jpg When the 1475 hp Daimler-Benz DB 605 engine was available, a new Bf 109 series, the G-series, was developed. The early versions of the Bf 109G looked quite similar to the Bf 109F-4, and at first carried the same armament. The G-series saw the appearance of the notorious bulges in the cowling (caused by the DB605 (additional cooling) and by replacing the 7.92 mm MG 17 with 13 mm MG 131 machine guns (G-5 onwards)) and on the wings (due to larger main gear wheels, G-4 onwards), leading to the Bf 109G's nickname "The Bulge" (German: "Die Beule"). The DB 605 suffered several reliability problems during the first year of operation forcing Luftwaffe units to lower max power to about 1310 hp (975 kW) until October/November 1943. Other changes included an enlarged supercharger for the DB 605 and the enlarged vertical stabilizer (G-5 onwards). All this was part of the continuous effort to increase the speed of the Bf 109, especially as the Allies deployed better and faster fighters like the P-51D and the later Spitfires. However, the added weight of the new engines and heavier armaments badly affected the handling characteristics of the Bf 109, especially since it already had a very high wing loading.

The G-6 model, the most produced Bf 109 version, had very heavy armament. The G-6/U4 variant with Rüstsatz R6 was armed with two 13mm MG 131 above the engine, a 30 mm MK 108 cannon shooting through the propeller hub and one 20 mm MG 151/20 in each wing. The G-6 was very often fitted with assembly sets, used to carry bombs or a drop tank, for use as nightfighter, or to increase fire power by adding rockets or extra guns.

Many subsequent Bf 109G versions were modified older Bf 109Gs. So the G-10 was not a uniform type, but consisted of all kinds of Bf 109Gs being transformed partially to Bf 109G-10 specifications as well as completely new aircraft builds. The most recognizable change was the optional use of the "ERLA-Haube" canopy, sometimes referred to (incorrectly) as the 'Galland' hood. This canopy improved the pilot's view by reducing the number of support struts, which was often criticized before. The Bf 109G-10, also nicknamed "Super-Bulge" (German: "Super-Beule"), saw a refinement of the bulges covering the breeches of the cowl mounted MG 131, these taking on a more elongated and streamlined form. A similar varying product was the Bf 109G-12. This was a two-seat trainer version of the Bf 109 and was rarely armed. The G-14 was basically a late-war Bf 109 G-6 with some parts (e.g. the tailfin) made of wood because of the shortage of strategic materials, especially aluminium.

Bf 109G variants and sub-variants Variants could be equipped with a "Rüstsatz" add-on kit (field modification) or a "Umbausatz" conversion kit (factory conversion). In either case, the modified aircraft were identified with either an /R or /U suffix, eg. Bf109G-10/U4.

Common Umbausatz numbers

• U1 Messerschmitt P6 reversible pitch propellor to be used as air brake, only prototypes
• U2 GM-1 boost
• U3 MW 50 boost
• U4 30 mm MK 108 engine-mounted cannon

Common Rüstsatz numbers

• R1 belly bomb rack for 250 or 500 kg bomb
• R2 wing bomb racks for 4x 50 kg bombs or 2x WGr21 rockets (or, for the G-1 to G-4 series, recon equipment)
• R3 belly drop tank (300 l)
• R4 two 30 mm MK 108 underwing gunpods
• R6 two 20 mm MG151/20 underwing gunpods

Known Variants

• G-1 (Pressurized fighter)
  • G-1/R2 (Lightened high altitude fighter - GM1, and armor removed)
  • G-1/U2 (High altitude fighter with GM1)
  • G-1 Trop (Never actually existed a “made up” version)
• G-2 (Light fighter)
  • G-2/R1 (Fighter-bomber- 2 underwing drop tanks, extra tail wheel)
  • G-2/R2 (Reconnaissance fighter)
  • G-2 Trop (Tropicalized fighter)
• G-3 (Pressurized fighter based on G-1 with new radio equipment, only 50 built)
• G-4 (Reconnaissance fighter)
  • G-4/R2 (Reconnaissance fighter)
  • G-4/R3 (Reconnaissance fighter)
  • G-4 Trop (Tropicalized Reconnaissance fighter)
  • G-4/U3 (Reconnaissance fighter with MW50)
  • G-4y (Command fighter)
• G-5 (Pressurized fighter)
  • G-5/U2 (High altitude fighter with GM1 boost)
  • G-5/U3 (Fitted with MW-50)
  • G-5/AS (High altitude fighter with DB605AS)
  • G-5y (Command fighter)
• G-6 (Light fighter)
  • G-6/R2 4x 50 kg wing bombs (fighter bomber), two rockets (heavy fighter)
  • G-6/R3 (Reconnaissance fighter)
  • G-6/R6 (Heavy fighter - two additional 20 mm guns)
  • G-6 Trop (Tropicalized fighter)
  • G-6/U2 (Fitted with GM-1)
  • G-6/U3 (Fitted with MW-50)
  • G-6/U4 (MK108 30 mm engine cannon)
  • G-6y (Command fighter)
  • G-6/AS (High altitude fighter with DB605AS)
  • G-6/ASy (High altitude command fighter)
  • G-6N (Night fighter, usually with R6 and FuG 350Z Naxos)
  • G-6/U4 N (as G-6N but with 30 mm MK 108 engine cannon)
• G-8 (Reconnaissance fighter as G-6, but with camera installation behind cockpit, reduced armament in some planes)
• G-10 (Light fighter with DB605D/DM/DBM engine)
  • G-10/R5 (Reconnaissance fighter)
  • G-10/R6 (Heavy fighter - two additional 20 mm guns)
  • G-10/AS (High altitude fighter with DB605ASM)
  • G-10/U4 (Fitted with MK 108 30 mm engine cannon)
• G-12 (Two-seat trainer, built from older G-1/G-5)
  • G-12/R3 (300l drop tank)
• G-14 (Light fighter, evolution of G-6)
  • G-14/R6 (Heavy fighter - two additional 20 mm guns);
  • G-14/AS (High altitude fighter with DB605ASM);
  • G-14/ASy (High altitude command fighter);
  • G-14y (Command fighter);
  • G-14/U4 (Fitted with MK 108 30 mm engine cannon)
• G-16 (Fighter Bomber); based on G-14 with additional armor - production started but soon after war was over

Bf 109H

The Bf 109H was intended to be a high-altitude fighter, developed from the Bf 109F series. The wingspan was increased to 11.92 m, the stabilizer again received a strut leading to the fuselage, and it was also widened. Maximum speed was 750-km/h at 10,100 m. A small number of Bf 109 H-1's were built, flying several sorties in France. Bf 109 H-2 and H-5 developments were also planned, before the entire H-series was scrapped because of wing flutter problems.

Bf 109K "Kurfürst"

More of the planes of the Bf 109K "Kurfürst" series saw duty. This series was the evolution of the Bf 109G-10, being very similar, at least the K-0, K-2 and K-4 models. In fact, the K series was in response to the fact that the bewildering array of series, models, modification kits and factory conversions for the Bf 109 led to enormous logistic headaches, which made production and maintenance complicated and costly - something Germany could ill-afford late in the war. As such, the RLM ordered Messerschimtt to rationalise production of the Bf 109, consolidating parts, types etc to produce a uniform, standard model with better interchangeability of parts and equipment. This was to have started in the later models of the G series, but as it turned out, things went quite the opposite direction. The RLM thus told Messerschmitt, in effect, to try harder, and hence the K series was born.

In the K-6, K-8 and K-14, the armament saw some changes. The K-6 like the K-8 was planned to carry two MG 131 above its engine, one MK 108 in each wing and a MK 103M behind its propeller hub. The engine gun was changed in the K-14 and replaced by an MK 108.

Only the K-4 saw action in numbers, approximately 1600 being delivered to squadrons before the end of hostilities. Armament consisted of a 30 mm MK 108 engine-mounted cannon and two 13 mm MG 131 in the nose with optional wing armament (20 mm or 30 mm cannons and/or R4M rockets).

The Bf 109 K-4 was the fastest 109 of WW2 reaching ~715 km/h (~445 mph), while a prototype even reached ~727 km/h (452 mph).

In Japan, the Kawasaki Company utilized the Messerschmitt Bf 109 E, which Germany had sent over, in their design evaluations. This lead to the creation of one of the best Japanese Army fighters in operation at the time, the unique In-line engined Japanese fighter the Kawasaki Ki-61 Hien aka "Tony".

Bf 109T "Trägerflugzeug" (Carrier Aircraft)

Prior to the war the German Navy had become fascinated with the idea of the aircraft carrier. Borrowing ideas from the British and Japanese (mainly the Akagi), they started the construction of the Graf Zeppelin (not to be confused with the airship Graf Zeppelin) as part of Plan Z in 1936. The air group for the carrier was settled on Messerschmitt Bf 109T fighters and Ju 87C dive bombers. The ten Bf 109T-0 were originally Bf 109E-3, which were modified by adding a tail-hook, catapult fittings, structural strengthening and increased wingspan (to 11.08 m). Also the landing gear track was a little wider. Thus prepared, the Bf 109T probably would have been proven much better for carrier operations than the British Supermarine Seafire, a hardly modified landplane that suffered from a bad accident rate flying from carriers.

Following the flight tests, especially the catapult tests, a series of 70 T-1 with DB601N engine was to be produced at Fieseler in Kassel, but after seven T-1 were built, the carrier project was canceled. The remaining 63 of 70 T-1 were built as T-2 without carrier equipment and all T-1 "upgraded" to T-2 standard. These planes were assigned to JG5 "Eismeergeschwader", deployed in Norway. The armament of the Bf 109T consisted of two MG 17 above the engine and one MG FF/M cannon in each wing.

Interest in the Graf Zeppelin returned when the value of aircraft carriers became obvious, and in 1942 the ship was back in the yards for completion. By this time the Bf 109T was hopelessly outdated and a new fighter would be needed. Messerschmitt responded with the updated Me 155A series, but work on the ship was again canceled and the Me 155 was later re-purposed as a high-altitude interceptor.

Bf 109Z "Zwilling"

This experimental aircraft was essentially two Bf 109F airframes (together with outer wing panels) joined together by means of a new wing, and new tail section. Two varients of this aircraft were proposed, one being an interceptor armed with five 30 mm cannons, and the other a fighter-bomber with a 1,000 kg bomb load. Only one Bf 109Z was ever built, and it was never flown.

Bf 109W "Wasserflugzeug" projekt

Contrary to popular belief, the Bf 109W was made-up after the war and is entirely fictional.

• [1]
• [2]

Combat Service with Switzerland

Switzerland got its first Me-109's in 1938 when 10 Me-109D's were delivered. After this 80 E-3 were purchased which arrived from April 1939. During the war a further two 109's (two F's and two G's) were acquired by the Swiss Air Force through internment.

In April 1944 12 further G-6 aircraft were acquired in exchange for the destruction of a highly secret Messerschmitt Me 110G nightfighter which made an emergency landing in Switzerland. The Swiss Air Force used the 109 until 1946.

During the war the Swiss aircraft were painted in more and more colorful markings to avoid confusion with German 109's.

On May 10, 1940 air combat between Switzerland and Germany was initiated. Several Swiss Me-109s engaged a German Dornier Do 17 near the border at Bütschwil; in the ensuing exchange of fire, the Dornier was hit and eventually forced to land near Altenrhein. The scene was repeated on May 16 when a German He 111 returned from France by way of Swiss airspace. Two Swiss fighters jumped the light bomber when it dropped down below cloud cover to de-ice its wings. The German aircraft was hit by machine gun fire and was further damaged by anti-aircraft fire near Zürich. Two injured flyers parachuted; the other two crew members went down with the plane and were captured.

On June 1 when the Germans sent 36 He 111s through Swiss airspace, Switzerland sustained its first casualty. Sub. Lt. Rudolf Rickenbacher was killed when his Me-109 caught fire after being hit in the fuel tank by enemy fire.

On June 8 a C-35 observation plane, a relic biplane, was attacked over the Jura Mountains by two German Me-110s. The pilot and observer were killed. Later on the same day, Swiss Captain Lindecker led about fifteen Swiss fighters against twenty-eight German planes. The Swiss pilots again displayed their ability in air to air combat, knocking three of the German planes from the sky and severely wounding the crew in a fourth. A Swiss Me-109 was hit and damaged in the dogfight.

Combat Service with Yugoslavia

In 1939 Yugoslavia received 73 Me-109 E-3's in exchange for iron, copper and chrome ore. However the aircraft were grounded most of the time due to a lack of spares. The Yugoslav pilots were not happy with their new fighters. There were a lot of landing accidents. When the Germans invaded in April 1941 the Yugoslav Air Force put up a fight but could do little to repel the invaders.

By the end of the war 17 109's were left. These were stored until 59 more were acquired from Bulgaria. The new Yugoslav Air Force used a mix of G-2, G-6, G-10 and G-12 aircraft. The aircraft were used until about the middle of 1952.

Developments after World War Two

Image:Messerschmitt Bf 109 - Australian war memorial.jpg After the war, some Bf 109s were produced in Czechoslovakia as the Avia S-99 and Avia S-199. These were modified Bf 109G-14s, the latter with a Junkers Jumo 211F engine. As noted above Czech pilots who had previously flown Spitfires for the RAF nicknamed the aircraft 'the Mule'. Several of these aircraft were sold to Israel, forming the basis of the nascent Israeli air force. [3] These aircraft were used by Israel until the end of the 1940s, some flying in combat against Egyptian Spitfires, [4] until being finally replaced by a mixture of P-51 Mustang and Spitfires. Image:AVIA-S 199.jpg.

In Spain, two license-built Bf 109G-2, the Hispano Aviacion Ha 1112 "Tripala" and "Buchon", [5] were built. The former with the Hispano-Suiza engine, and later with the same Rolls-Royce Merlin engines which had powered Spitfires. Many of these aircraft have been used for theatrical purposes, posing as Emils and Gustavs in Battle of Britain and Tuskegee Airmen, respectively.

The original Bf 109, produced before 1945, remained in service a long time after the war. The former German ally Romania used its Bf 109s until 1955. The Finnish air force did not retire their Bf 109Gs until the mid 1950s. Hungarian 109's, conversely, were destroyed in Germany by their own crews on 6th May 1945. The Spanish Hispanos, however, flew longer. Some were still in service into the late 1960's. They appeared in films (notably "The Battle of Britain") playing the role of the Bf 109. Some Hispano airframes were sold to museums, which rebuilt them as Bf 109s. The Swiss used several Me 109G planes well into the 1950s.

Operators

• (Wartime): Bulgaria, Croatia, Finland, Germany, Hungary, Italy, Japan (one aircraft only), Romania, Slovakia, the Soviet Union (1 aircraft only), Spain, Switzerland, Yugoslavia.
• (Postwar): Czechoslovakia, Israel, Spain,

Specifications (Messerschmitt Bf 109 G-6)

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External links and sources

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• The History of German Aviation: Willy Messerschmitt - Pioneer of Aviation Design, ISBN 0764307274
• Bf 109 Restoration
• Bf 109 Aricraft Variations
• Luftwaffe Archive
• The 109 Lair
• Bf 109 Pictures
• 109F-4 documents

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