MYSLIWSKI Me - 109 E Messerschmitt Bf 109
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The Messerschmitt Bf 109 was a German World War II fighter aircraft designed by Willy Messerschmitt in the early 1930s. It was one of the first true modern fighters of the era, including such features as an all-metal monocoque construction, a closed canopy, and retractable landing gear. The Bf 109 was produced in greater quantities than any other fighter aircraft in history, with a total of 33,984 units produced up to April 1945.[1] Fighter production totalled 47% of all German aircraft production, and the Bf 109 accounted for 57% of all German fighter types produced.[2] A total of 2,193 Bf 109 A-E were built prewar, from 1936 to August 1939. Approximately 1,000 Bf 109 derivatives were manufactured postwar under licence as Czechoslovakian-built Avia S-99 & S-199s and Spanish-built Hispano Aviación HA-1109 and HA-1112 Buchons.
The Bf 109 was the backbone of the Luftwaffe fighter force in World War II, although it began to be partially replaced by the Focke-Wulf Fw 190 from 1941. The Bf 109 was the most successful fighter of World War II, shooting down more aircraft than any of its contemporaries.[citation needed] Originally conceived as an interceptor, it was later developed to fulfill multiple tasks, serving as bomber escort, fighter bomber, day-, night- all-weather fighter, bomber destroyer, ground-attack aircraft, and as reconnaissance aircraft. Although the Bf 109 had weaknesses, including short range[3] and challenging take off and landing characteristics, it stayed competitive with Allied fighter aircraft until the end of the war.
The Bf 109 was flown by the three top-scoring fighter aces of World War II: Erich Hartmann, the top scoring fighter pilot of all time claiming 352 victories, Gerhard Barkhorn with 301 victories, and Günther Rall claiming 275 victories. All of them flew with Jagdgeschwader 52, a unit which exclusively flew the Bf 109 and was credited with over 10,000 victories, chiefly on the Eastern Front. Hans-Joachim Marseille, the highest scoring German ace in the North African Campaign, also claimed all of his 158 victories flying the Bf 109, against Western Allied pilots.[4]
The Bf 109 was also used with good results by non-German pilots, such as the Finnish fighter ace Ilmari Juutilainen with 94 victories, the highest scoring non-German fighter ace in World War II,[5] Romanian fighter ace Alexandru Şerbănescu with 47 victories, Croatian fighter ace Mato Dukovac with 44 victories and Hungarian fighter ace Szentgyörgyi Dezső with 29 (+1 German) confirmed and six unconfirmed victories.
[edit] Designation and nicknames
Originally the aircraft was designated as Bf 109 by Reichsluftfahrtministerium (German Aviation Ministry, RLM), since the design was submitted by the Bayerische Flugzeugwerke company. However, the company was renamed Messerschmitt AG after July 1938[6] when Erhard Milch finally allowed Willy Messerschmitt to acquire the company; from that date forward, all Messerschmitt aircraft were to carry the "Me" designation. Despite regulations by the RLM, wartime documents from Messerschmitt AG, RLM and Luftwaffe loss and strength reports continued to use both designations, sometimes even on the same page.[7] All extant airframes are described as "Bf 109" on identification plates, including the final K-4 models,[8] with the noted exception of aircraft either initially built or re-fitted by Erla Flugzeugwerke, which sometimes bore the Me 109 stamping. The "non-original" Me-prefixed designation is usually pronounced as may hundert-neun in German. The Me 109 ("emm ee one-oh-nine") designation is usually used in the English-speaking world, especially by American World War II veterans, despite its "non-original" status.The aircraft was given several nicknames by its operators and opponents, generally derived from the name of the manufacturer (Messer, Mersu, Messzer etc.), or the external appearance of the aircraft: the G-6 variant was nicknamed by the Luftwaffe personnel as Die Beule, or 'The bump/bulge', because of the cowling's characteristic covers for the sizable breeches of the later Bf 109G's synchronized MG 131 machine guns, while Soviet aviators nicknamed it as "the skinny one" for its sleek appearance (compared to the more robust FW 190). The names "Anton", "Bertha", "Caesar", "Dora", "Emil", "Friedrich", "Gustav" and "Kurfürst" were derived from the variant's official letter designation (i.e. Bf 109G - 'Gustav'), based on the German phonetic alphabet of World War II, and this practice was also used for other German aircraft designs.
[edit] Contest history
During 1933, the Technisches Amt (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 fighter needed to have a top speed of 400 km/h (250 mph) at 6,000 m (19,685 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 522 kW (700 hp). It was to be armed with either a single high-performance 20 mm MG C 30 cannon firing through the engine shaft, or alternatively either two engine cowl-mounted 7.92 mm MG 17 machine guns, or one lightweight, engine mounted 20 mm MG FF cannon plus two 7.92 mm MG 17s.[9] One other specification was that the aircraft needed to keep wing loading below 100 kg/m². The priorities for the fighter design were level speed, climb speed, and manoeuvrability, in that order.
In fact the R-IV specifications were not actually devised by 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 distributed to the tendering companies 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 RLM director Erhard Milch (Hans Hackman, a close friend of Milch, was killed testing the prototype Messerschmitt M20 light transport aircraft), after the M20 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 (literally Bavarian Aircraft Factory) for which Messerschmitt was head designer, was invited to take part in early 1935, although Milch let it be known they would never win the contract.[citation needed]
[edit] Prototypes
The first prototype (Versuchsflugzeug 1 or V1), with the civilian registration D-IABI, 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 as an engine test-bed.[10] Messerschmitt received two of these engines and started adapting the engine mounts of V1 to take the inverted Vee-12 engine. This work was completed in August, and V1 completed flight tests in September 1935. The aircraft was then sent to the Luftwaffe Test Center at Rechlin to take part in the design contest.By the late summer, the Jumo engines were starting to become available, and V2 was completed with the 449 kW (602 hp) Jumo 210A in October 1935. V3 followed, being the first to actually mount guns, but another Jumo 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.[citation needed]
The flight data of these three aircraft were very nearly identical. The maximum airspeed was about 470 km/h (294 mph) at 4,000 m (13,123 ft) altitude, and the service ceiling was about 8,300 m (27,231 ft).[citation needed]
[edit] The contest
After Luftwaffe acceptance trials were completed at Rechlin, the prototypes were moved to Travemünde for the head-to-head portion of the contest. The aircraft which participated in the trials were the Arado Ar 80 V3, the Focke-Wulf Fw 159 V3, the Heinkel He 112 V4 and the Bf 109 V2. The He 112 arrived first, in early February 1936, and the rest of the prototypes had all arrived by the beginning of March.Because most of the fighter pilots of the Luftwaffe were used to biplanes with open cockpits, low wing-loading, light g-forces and easy handling, they were very critical about the Bf 109 at first. However, it was soon one of the front-runners in the contest, as the Arado and Focke-Wulf entries, which were intended as "back-up" programmes to safeguard against failure of the two favourites, proved to be completely outclassed. The Arado Ar 80, with its "gull" wing (replaced with a straight, tapered wing on the V3) and fixed, spatted undercarriage was overweight and underpowered and the design was abandoned after three prototypes had been built. The parasol winged Fw 159 was always considered by the Erprobungsstelle (E-Stelle) staff at Travemünde to be a compromise between the biplane and the aerodynamically more efficient low-wing monoplane. Although it had some advanced features, it used a novel undercarriage design which was never truly reliable.[11]
Initially, the Bf 109 was regarded with suspicion by the E-Stelle test pilots because of its steep ground angle, resulting in poor forward view on the ground; the sideways-hinged cockpit canopy, which could not be opened in flight; and the automatic wing leading edge slots which, it was thought, would inadvertently open during aerobatics, possibly leading to crashes. They were also concerned about the high wing loading.[12]
The Heinkel He 112, based on a scaled down Blitz was the favourite of the Luftwaffe leaders. Compared with the Bf 109, it was also cheaper.[13] Positive aspects of the He 112 included the wide track and robustness of the undercarriage, considerably better visibility from the cockpit, and a lower wing loading that led to easier landings. However, the He 112 was also structurally complicated, being some 18% heavier than the Bf 109, and it soon became clear that the thick wing, which spanned 12.6 m (41 ft 4 in) with an area of 23.2 m2 (249.7 ft2) on the first prototype (V1), was a disadvantage for a light fighter, decreasing the aircraft's rate of roll and manoeuvrability. Because of its smaller, lighter airframe, the Bf 109 was 30 km/h (19 mph) faster than the He 112 in level flight, and superior in climbing and diving. As a result, the He 112 V4 which was used for the trials had new wings, spanning 11.5 m (37 ft 8.75 in) with an area of 21.6 m2 (232.5 ft2). In addition, the V4 had a single-piece, clear-view, sliding cockpit canopy and a more powerful Jumo 210Da engine with a modified exhaust system. However, the improvements had not been fully tested and the He 112 V4 could not be demonstrated in accordance with the rules laid down by the Acceptance Commission, giving a distinct advantage to the Bf 109. The Commission ruled in favour of the Bf 109 because of the Messerschmitt test pilot's demonstration of the 109's capabilities during a series of spins, dives, flick rolls and tight turns, throughout which the pilot was in complete control of the aircraft.[14]
In March, the RLM received news that the British Spitfire had been ordered into production; with this information, a quick result to the contest was needed in order to get the winning design into production. On 12 March, they released a document that outlined the results of the contest, Bf 109 Priority Procurement, as a result of which the RLM instructed Heinkel to radically re-design the He 112, while ordering the Bf 109 into production.[15]
[edit] Design features
As with the earlier Bf 108, the new design was based on Messerschmitt's "lightweight construction", which essentially aimed at reducing the total number of parts in the aircraft as much as possible. Examples of this could be found in the use of two large, complicated brackets which were fitted to the main engine firewall; these brackets incorporated the lower engine mounts and landing gear pivot points. Another large forging attached to the firewall carried the main-spar pick up points, and carried most of the wing loads. Contemporary design practice was usually to have these main load-bearing structures mounted on different parts of the airframe, with the loads being distributed through the main structure via a series of strong-points. By centralising the loads on the main bulkhead, the main structure of the 109 was able to be made relatively light and uncomplicated.[16]Another advantage of this design was that because the outboard-retracting main landing gear, retracting through roughly an 85º angle, was attached to the fuselage, it was possible to completely remove the wings of the aircraft for major servicing without the need for additional equipment to support the fuselage. It also meant that the wing structure was able to be simplified through not having to carry the weight of the aircraft and not having to bear the loads imposed during take-off or landing. However, this had one major drawback — this landing gear arrangement ensured a narrow wheel track making the aircraft laterally unstable while on the ground. To increase stability the legs had to be splayed out, creating another problem in that loads imposed during take-off and landings were transferred at an angle up the legs. The small rudder of the 109 was relatively ineffective at controlling the strong swing created by the powerful slipstream of the propeller and this sideways drift created disproportionate loads on the wheel opposite the swing. If the forces imposed were large enough, the pivot points often broke and the landing gear leg would be forced sideways into its bay.[17] Because of the large ground angle caused by the long legs, visibility for the pilot, especially straight ahead, was very poor, a problem exacerbated by the sideways opening canopy. This meant that the pilots often had to "snake" the aircraft during taxiing manoeuvres, which again imposed stresses on the splayed undercarriage legs.
Although it has been suggested that from 5–33% of all 109s were damaged or destroyed in this way, the Luftwaffe's loss records show that approximately 1% of the Bf 109s suffered landing incidents or accidents at the beginning of its career, a figure comparable to the other monoplane fighters introduced at the time.[citation needed] Ground accidents were, however, more of a problem with rookie pilots, especially during the later stages of the war.[18] Even experienced pilots, especially those who were tired, were caught out. Most Finnish pilots report that the swing was easy to control, but some of the less experienced pilots lost fighters on startup.[18] The provision of a fixed "tall" tailwheel on some of the late G-10s and 14s and the K series helped alleviate the problem to a large extent.[19]
Right from the inception of the design priority was given to total and easy access to the powerplant, fuselage weapons and other systems while the aircraft was operational from forward airfields. To this end, the entire engine cowling was made up of large, easily removable panels which were secured by large toggle-latches. A large panel under the wing centre-section could be removed to gain access to the L-shaped main fuel tank, which was sited partly under the cockpit floor and partly behind the rear cockpit bulkhead. Other, smaller panels gave easy access to the cooling systems and electrical equipment. The engine was held in two large, forged, magnesium alloy y-shaped legs which were cantilevered from the main firewall/bulkhead. Each of the legs was secured by two quick-release screw fittings on the main firewall. All of the main pipe connections were colour-coded and grouped in one place, where possible, and the electrical equipment plugged into junction boxes mounted on the firewall. The entire powerplant could be removed or replaced as a unit in a matter of minutes.[20]
Reflecting Messerschmitt's belief in low-weight, low-drag, simple monoplanes, the armament was placed in the fuselage: two machine guns were mounted in the cowling, firing over the top of the engine, while provision was made for a third, engine-mounted weapon firing through the propeller hub,[21] with the engine buffering the recoil. Conforming to Dr. Messerschmitt's ethos, this kept his gun-free wings very thin and lightweight. When it was discovered the RAF was producing eight-gun monoplanes, it became clear the Bf 109 would need to carry more weaponry; a new wing was designed to carry machine guns, and later, 20 mm MG FF cannon configurations. In 1938, the "Emil" entered production. To improve on the performance allowed by the rather small 447-522 kW (600-700 hp) Jumo, the larger Daimler Benz DB 601A engine was used, yielding an extra 223 kW (300 hp) at the cost of an additional 181 kg (400 lb).
Another aspect of this construction technique was the use of a single, I-section main spar in the wing, mounted closer to the leading edge, forming a stiff D-shaped torsion box with it. Most aircraft of the era used two spars, near the front and rear, but the D-box was much stiffer torsionally, and eliminated the need for the rear spar. The wing profile was somewhere between NACA 2314 and 2315, with a thickness to chord ratio of 14.5%.
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 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 area would be optimal for achieving high level speeds. The downside of such a trade-off is that low-speed flight would suffer, as 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. Messerschmitt also included ailerons (and later radiator flaps) that "drooped" when the flaps were lowered thereby increasing the effective flap area when the flaps were deployed. When deployed, these devices effectively increased the coefficient of lift, making it better at low speeds and high angles of attack.[22]
[edit] Wing armament and gondola cannons
By 1937, it had become clear that the 109 was too lightly armed, especially when compared with the eight machine guns which armed the new RAF fighters: the Hawker Hurricane and Supermarine Spitfire. The problem was that when it came to fitting additional armament, the only place in which it could be located was in the wings. However, the positions of the undercarriage bays, main spar and wing slots meant that room was limited to two bays between the undercarriage and slots. There was room for only one weapon per wing, either an MG 17 machine gun, or an MG FF or MG FF/M cannon. The first version of the 109 to have wing guns was the C-1, which had one MG 17 per wing fitted in the inner bays. To avoid redesigning the wing to accommodate large ammunition boxes and access hatches, an unusual ammunition feed was devised whereby a continuous belt holding 500 rounds was fed along chutes out to the wingtips. The belt was fed around a roller and back along the wing, forward and beneath the gun breech, to the wing root where it was fed around another roller and back to the weapon. The gun barrels were buried in long, large diameter tubes between the spar and the leading edge. These tubes channelled cooling air around the barrels and breeches and out of a slot at the rear of the wing diaphragm and top of the flap. Room was still so restricted that parts of the MG 17's breech mechanism poked into an accommodating hole in the flap structure.[23]The much longer and heavier MG FF had to be mounted in the outer bay. A large hole was cut through the spar webbing to allow the cannon to be fitted with an ammunition feed forward of the spar and the rear breech block projecting through the spar. The 60-round ammunition drum was placed in the machine-gun compartment; a small hatch incorporating a blister was needed in the wing lower surface to allow access to change the drum. The entire weapon could be removed for servicing by removing a leading edge panel.[23] From the 109F series onwards, guns were no longer carried inside the wings - a noteworthy exception was Adolf Galland's field-modified Bf 109F-2, which had a 20 mm MG FF/M installed internally in each wing.[24] As explained later, some of the late 109K series models, such as the K-6, were planned to carry 30 mm MK 108s cannons in the wings.[25] - though additional firepower was available through a pair of 20 mm MG 151/20 cannons in conformal gun pods, installed under the wings. Although the additional armament increased the fighter's potency as a bomber destroyer, it had an adverse affect on the handling qualities, reducing its competence in fighter-versus-fighter combat and accentuating the tendency of the fighter to swing pendulum-fashion in flight.[26] The conformal gun pods- without ammunition - weighted 135 kg (298 lb).[27] Installation of the underwing gun pods was a simple task that could be quickly performed by the unit's armourers, and imposed a reduction of speed of only 8 km/h (5 mph).[28] By comparison, the installed weight of a similar armament of two 20 mm MG 151/20 cannon inside the wings of the FW 190A-4/U8 was 130 kg (287 lb), without ammunition.[29]
[edit] Records
On 11 November, 1937, Messerschmitt regained some favour with Erhard Milch when the Bf 109 V13 increased the world air speed record for Landplanes with piston engines[30][31] to 610.55 km/h (379.38 mph). The "V13" had been fitted with a special racing DB 601R engine, as a result the power of the engine could reach 1,650 hp (1,230 kW) for short periods.[32]Heinkel, having had the He 112 rejected began work on the He 100. On 6 June, 1938, the He 100 V3, flown by Ernst Udet, established a new record of 634.7 km/h (394.4 mph), and later, on 30 March, 1939, test pilot Hans Dieterle surpassed that record, reaching 746.61 km/h (463.92 mph) with the He 100 V8. Messerschmitt soon regained the lead in this race. On 26 April, 1939, Flugkapitän Fritz Wendel, flying the Bf 209 V1, a racing aircraft bearing little in common with the Bf 109, powered by the DB 601ARJ, producing 1,156 kW (1,550 hp) but capable of reaching 1,715 kW (2,300 hp), raised the figure to 755.14 km/h (469.22 mph). For propaganda purposes, the machine was called the Bf 109R, suggesting it was just another version of the standard fighter. This world record for a propeller driven aircraft was to stand until 1969.[33]
[edit] Variants
[edit] Bf 109 A/B/C
The Bf 109A ("Anton") was the first version of the Bf 109. The armament, planned to be only two cowl-mounted 7.92 mm MG 17 machine guns. However, possibly due to the introduction of the Hurricane and Spitfire, each with eight machine guns, led to experiments with a third machine gun firing through the propeller shaft.[34] V4 and some A-0 were powered by a 640 PS Jumo 210B engine driving a two-bladed fixed-pitch propeller. As soon as the 670 PS Jumo 210D became available production was changed to this engine. The A-0 were not of a uniform type but saw several changes in their appearance. Visible changes include engine, cockpit and machine gun ventilation holes/slats as well as changing the location of the oil cooler several times to prevent overheating. Many of those Bf 109A-0 served with the Condor Legion and were often misidentified as B-series aircraft; they probably served in Spain with the tactical markings 6-1 to 6-16 . One A-0, marked as 6-15, ran out of fuel and was forced to land behind enemy lines. It was captured by Republican troops on 11 November 1937 and later transferred to the Soviet Union for a closer inspection.[35] 6-15 incorporated several improvements from the Bf 109B production program and was prepared to use the variable-pitch propeller although it had not been installed.According to RLM documentation 22 aircraft were ordered and delivered with V4 as the A-series prototype.[36]
The first Bf 109 in serial production, the Bf 109B ("Bruno"), was fitted with the 670 PS (493 kW, 660 hp) Jumo 210D engine driving a two-bladed fixed-pitch propeller. During the B-1 production run a variable pitch propeller was introduced and often retrofitted to older aircraft, these were then unofficially known as B-2s. Both versions saw combat with the Condor Legion during the Spanish Civil War, although it was apparent that the armament was still inadequate. Several aircraft were produced with an engine-mounted machine gun but it was very unreliable again, most likely because of engine vibrations and overheating. Thus the Bf 109 V8 was constructed to test the fitting of two more machine guns in the wings. Results showed that the wing needed strengthening.[37] In the following V9 prototype both wing guns were replaced by 20 mm MG FF cannons.[38]
A total of 341 Bf 109B of all versions were built by Messerschmitt, Fieseler, and Erla.[39]
The short-lived Bf 109C ("Caesar") was powered by a 700 PS Jumo 210G engine with direct fuel injection. Another important change was a strengthened wing, now carrying two more machine guns giving four MG 17 in total. The C-0 were pre-production aircraft, the C-1 was the production version, the C-2 an experimental version with an engine-mounted machine gun. The C-3 was planned with 20 mm MG FF cannons replacing the two MG 17 machine guns in the wings but its not known how many C-3 (if any) were built or converted. The C-4 was planned to have an engine mounted MG FF, but the variant was not produced.[40]
A total of 58 Bf 109C of all versions were built by Messerschmitt.[39]
The next model, the V10 prototype, was identical to the V8, except for its Jumo 210G engine. 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. The DB600A was dropped as the improved DB601A with direct fuel injection was to become available soon.
[edit] 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 II. 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, except in some night fighter units, where some examples were used into early 1940. Variants included D-0 and D-1 Models, both with a Junkers Jumo 210D engine and armed with two wing-mounted and two nose-mounted 7.92 mm MG 17s.[33] The D-2 was an experimental version with an engine mounted machine gun but this installation failed again. The D-3 was similar to the C-3 with two 20 mm MG FFsin the wings.A total of 647 Bf 109D of all versions were built by Focke-Wulf, Erla, Fieseler, Arado and AGO.[39] Messerschmitt is listed as having only four Bf 109D produced, probably the D-0 preproduction series with the serial production transferred to license manufacturers. Several Bf 109D were sold to Hungary and Switzerland.
[edit] Bf 109E "Emil"
To test the new 1,100 PS (809 kW, 1,085 hp) DB601A engine two more prototypes (V14 and V15) were built each differing in their armament. While the V14 was armed with the two MG 17s above the engine and one 20 mm MG FF in each wing, the V15 was fitted with just two MG 17s mounted above the engine only.[41] After test fights the V14 was considered more promising and a pre-production batch of 10 E-0 was ordered. Batches of both E-1 and E-3 variants were shipped to Spain for evaluation, and received their baptism of fire in the final phases of the Spanish Civil War.[edit] E-1
The production version E-1 kept two 7.92 mm MG 17s above the engine and had two MG 17s in the wings. Later many were modified to the E-3 armament standard. The E-1B was a small batch of E-1s becoming the first operational Bf 109 fighter bomber, or Jagdbomber (usually abbreviated to Jabo). These were fitted with either a ETC 250 bomb rack, carrying one 250 kg (551 lb) bomb or two ETC 50 bomb racks, carrying a 50 kg (110 lb) bomb under each wing. The E-1 was also fitted with the Reflexvisier "Revi" gunsight. Communications equipment was the FuG 7 Funkgerät 7 (radio set) short-range radio equipment, effective to ranges of 48–56 km (30-35 mi). A total of 1,183 E-1 were built, 110 of them were E-1/B.[39][edit] E-2
Only a small number of the E-2 variant were built, seeing limited service.[42] Details of this variant are unclear.[edit] E-3
To improve the performance of the Bf 109E, the last two real prototypes were constructed, V16 and V17. These received some structural improvements and more powerful armament. Both were the basis of the Bf 109 E-3 version. The E-3 was armed with the two MG 17s above the engine and one MG FF cannon in each wing.[18][43] The E-3 also received additional armour, many receiving self-sealing fuel tanks and an optional, improved DB601Aa of 1,175 PS (864 kW, 1,159 hp).[citation needed] A total of 1,276 E-3 were built. 83 of them were E-3a export versions for Yugoslavia without equipment classified as secret. [44] They carried Swiss MG and German Telefunken radios.[edit] E-4
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 using the modified MG-FF/M wing cannon and 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 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-this special /M designation has also been thought to designate a Motorkanone version of the MG FF.[citation needed].The canopy was also revised to an easier-to-produce, "squared-off" design, which also helped improve the pilot's field of view. This canopy, which was also retrofitted to many E-1s and E-3s, was largely unchanged until the introduction of a welded, heavy framed canopy on the G series in the autumn of 1942. The E-4 would be the basis for all further Bf 109 E developments. Some E-4 and later models got a further improved 1,175 PS DB601N high-altitude engine; known as this E-4/N this first appeared in July 1940. The E-4 was also available as a fighter-bomber with equipment very similar to the previous E-1/B. It was known as E-4/B (DB 601Aa engine) and E-4/BN (DB 601N engine). 496 E-4 of all versions were built - 250 E-4, 20 E-4/N, 211 E-4/B and 15 E-4/BN.[44]
[edit] E-5, E-6
The E-5 and E-6 were both reconnaissance variants with a camera installation behind the cockpit. The E-5 was a reconnaissance variant of the E-3, the E-6 was a reconnaissance variant of the E-4/N. 29 E-5s were built and 9 E-6 were ordered.[44][edit] E-7
The E-7 was the next major production variant which entered service and combat at the end of August 1940.[45] One of the limitations of the early Emils was short range of 660 km (410 mi) and limited endurance, as the design was originally conceived as a short ranged interceptor. The E-7 rectified this problem as it was the first subtype to able to carry a drop tank on a rack under the fuselage, which increased their range to 1,325 km (820 mi)[citation needed]; alternatively, a bomb could be fitted and the E-7 could be used as a fighter-bomber. Previous Emil subtypes were progressively retrofitted with the necessary fittings for carrying a drop tank from October 1940.[46] Early E-7s were fitted with the DB 601Aa, while late production ones were fitted with DB 601N engines with increased output - the latter was designated as E-7/N.[47][edit] Emils in the Battle of Britain
The E-1 and E-4 saw the most heavy action during the Battle of Britain. On 31 August 1940, fighter units, excluding JG 77 reported 375 E-1s, 125 E-3s, 339 E-4s and 32 E-7s on strength, indicating that most of the E-3s have been already converted to E-4 standard.[48] By July, one Gruppe (Wing) of JG 26 was equipped with the Bf 109E-4/N model of improved performance, powered by the new DB 601N engine using 100 octane aviation fuel.[49]The fuel-injected DB601 proved most useful against the British Supermarine Spitfire and Hawker Hurricane, as the British fighters used gravity-fed carburetted 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 approximately as fast and able to out-turn the 109 at medium to high speeds, 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 Bf 109. The Royal Aircraft Establishment estimated the Spitfire's turning circle — without height loss — as 212 m (696 ft) in radius (the Hurricane's would be slightly tighter) while the 109E's was estimated as 270 m (885 ft) radius at 3,657 m (12,000 ft).[50] Reports by Messerschmitt A.G. on the other hand give the smallest turning circle was 170 m (558 ft), and fighter pilots on both sides claim they would out-turn their opponents in combat. Radinger and Schick, quoting the 1939 Luftwaffe specifications for the Bf 109E, state the tightest turn radius at ground level as 125 m (410 ft), and as 230 m (754 ft) at 6,000 m (19,685 ft)[51] In roll rates the Bf 109 enjoyed an advantage at dogfight speeds, though at high speeds the manoeuvrability of all three fighters was severely limited in this regard. The most experienced fighter aces like Werner Mölders were the first ones to fly the first Bf 109F-1s in combat in October 1940.[52]
In the Battle of Britain, the Bf 109 was at a disadvantage due to its short range: like most of the 1930s monoplane interceptors, it was designed to engage enemy bombers over friendly territory, and the range and endurance was not required to be sufficient for escorting long-ranged bombers over enemy territory. During the Battle, after escorting bombers from their bases in northern France, The Netherlands and Germany, the Messerschmitt had only around 15 minutes of fuel for combat over southern England before having to turn back. The Spitfire and Hurricane, designed with similar operational requirements in mind, but operating virtually over their home airfields, had a tactical advantage in being able to remain longer in the combat area and having the option to pursue any targets if needed. The approach to firepower was radically different: the RAF preferred massed batteries of small caliber guns, with the Spitfire and Hurricane having eight .303 in (7.7 mm) machine guns; the Bf 109s (E-3, E-4, E-7) carried two 7.92 mm MG 17s and two 20 mm MG FF cannon, the latter firing explosive shells which were highly destructive, but having a small (60-round) ammunition capacity, and different ballistic properties than the cowl mounted MG 17s. The E-1s on the other hand carried only four 7.92 mm MG 17s, but provided with an ammunition supply of 4,000 rounds.
RAF pilots who tested captured Bf 109s liked the engine and throttle response, the docile and responsive handling and stall characteristics at low speeds, but criticised the high speed handling characteristics, poorer turning circle, and great control forces required at speed.[50][53] In August 1940, comparative trials were held at the E'Stelle Rechlin, with the famous ace Werner Mölders being one of the participants. The tests concluded that the Bf 109 had superior level and climb speed to the Spitfire at all altitudes, but also noted the significantly smaller turning circle of the British fighter. It was advised not to engage in turning dog-fights unless the performance advantage of the Bf 109 could be used to full effect. The roll rate of the Bf 109 was deemed superior as was its stability on target approach. Mölders himself called the Spitfire "miserable as a fighting aircraft", due to its two-pitch propeller and the inability of its carburettor to handle negative g-forces. It should be noted, however, that in the political climate of the times there was often a considerable amount of propaganda written into such reports by both sides.[54]
Bf 109E variants and sub-variants
- E-0 (Pre-Production Aircraft with 4 × MG 17 7.92 mm machine guns)
- E-1 (Similar to E-0)
- E-1/B (Fighter-bomber version of E-1, usually with DB 601Aa)
- E-2 (Not built)
- E-3 (Armament; 2 × MG 17s in the cowl, 2 × MG FFs in the wing roots.)[18][page needed]
- E-4 (Armor and structural improvements, change of MG FF cannons to MG FF/M. "Square" canopy)
- E-4/B (Fighter-bomber version of E-4, 1 × 250 kg/551 lb bomb, usually with DB 601Aa)
- E-4/Trop (Version of E-4 modified to serve in tropical regions)
- E-4/N (E-4 with DB601N engine)
- E-4/BN (Fighter-bomber version of E-4/N, 1 × 250 kg/551 lb bomb)
- E-5 (Recon version of E-3, camera equipment, 2 × MG 17)
- E-6 (Recon version of E-4/N, camera equipment, 2 × MG 17)
- E-7 (Similar to E-4 but with optional external fuel tank)
- E-7/N (Similar to E-4/N but with optional external fuel tank)
- E-7/NZ (also E-7/Z) E-7/N with additional GM-1 injection system
- E-7/U2 (Ground attack variant of E-7)
- E-8 (long range version of E-1 using drop tank installation of E-7, 4 × MG 17)
- E-9 (Recon version of E-7/N, drop tank, camera equipment, 2 × MG 17)
[edit] Bf 109F "Friedrich"
[edit] Prototypes
Development of the new Bf 109F airframe had begun in 1939. After February 1940 an improved engine, the Daimler-Benz DB 601E, was developed for use with the Bf 109. The engineers at the Messerschmitt facilities took two Bf 109E-1 airframes and installed this new powerplant. The first two prototypes, V21 (Werksnummer (Works number) or W.Nr 5602) and V22 (W.Nr 1800) kept the trapeziform wing shape from the E-1, but the span was reduced by 61 cm (2 ft) by "clipping" the tips. Otherwise the wings incorporated the cooling system modifications described below. V22 also became the testbed for the pre-production DB 601E. The smaller wings had a detrimental effect on the handling so V23, Stammkennzeichen (factory Code[55]) CE+BP, W.Nr 5603, was fitted with new, semi elliptical wingtips. The fourth prototype, V24 VK+AB, W.Nr 5604, flew with the clipped wings but featured a modified, "elbow" shaped supercharger air intake which was eventually adopted for production, and a deeper oil cooler bath beneath the cowling.[56] On all of these prototypes the fuselage was cleaned up and the engine cowling modified to provide improved aerodynamics.[edit] Aerodynamic improvements
Compared to the earlier Bf 109 E, the Bf 109 F was much improved aerodynamically. The engine cowling was redesigned to be smoother and more rounded. The enlarged propeller spinner, adapted from that of the new Messerschmitt Me 210, now blended smoothly into the new engine cowling.[57] Underneath the cowling was a revised, more streamlined oil cooler radiator and fairing. A new ejector exhaust arrangement was incorporated and on later aircraft used a metal shield over the left hand banks to deflect exhaust fumes away from the supercharger air intake. The supercharger air-intake was, from the F-1 series on, a rounded, "elbow" shape which protruded further out into the air stream. A new 3 bladed, light alloy VDM propeller unit with a reduced diameter of 3 m (9 ft 8.5 in) was used. Propeller pitch was changed electrically, and was regulated by a constant speed unit, though a manual override was still provided. Thanks to the improved aerodynamics, more fuel efficient engines and the introduction of light-alloy drop tanks, the Bf 109F offered a much increased maximum range of 1,700 km (1,060 mi)[58][verification needed] compared to the Bf 109E's maximum range of 660 km (410 mi).The canopy stayed essentially the same as that of the E-4 although the handbook for the F stipulated that the forward, lower triangular panel to starboard was to be replaced by a metal panel with a port for firing signal flares. Many F-1s and F-2s kept this section glazed. A two-piece, all metal armour plate head shield was added, as on the E-4, to the hinged portion of the canopy, although some lacked the curved top section. A bullet-resistant windscreen could be fitted to the windscreen as an option.[59] The fuel tank was self-sealing, and around 1942 Bf 109Fs were retrofitted with additional armour made from layered light alloy plate just aft of the pilot and fuel tank. The fuselage aft of the canopy remained essentially unchanged in its externals.
The tail section of the aircraft was redesigned as well. The rudder was slightly reduced in area and the symmetrical fin section changed to an airfoil shape, which helped increase the effectiveness of the rudder. The conspicuous bracing struts were removed from the horizontal tailplanes which were placed slightly below and forward of their original positions. A semi-retractable tailwheel was fitted and the main undercarriage legs were raked forward by six degrees to improve the ground handling. An unexpected structural flaw of the wing and tail section was revealed as the first Bf 109Fs were rushed into service; consequently some aircraft crashed or nearly crashed, with either the wing surface wrinkling or fracturing, or by the tail structure failing. In one such accident, the commander of JG 2 "Richthofen", Wilhelm Balthasar lost his life when he was attacked by a Spitfire during a test flight. While making an evasive manoeuvre, the wings broke away and Balthasar was killed when his aircraft hit the ground. When the wreck was investigated, not a single bullet hole was found.[citation needed] Slightly thicker wing skins and reinforced spars dealt with the wing problems. Tests were also carried out to find out why the tails had failed and it was found that at certain engine settings a high-frequency oscillation in the tailplane spar was overlapped by vibrations from the engine; together this was enough to cause structural failure at the rear fuselage/fin attachment point. Initially two external stiffening plates were screwed onto the outer fuselage on each side and later the entire structure was reinforced.[56]
The entire wing was redesigned, the most obvious change being the new quasi-elliptical wingtips, and the slight reduction of the aerodynamic area to 16.05 m2. Other features of the redesigned wings included new leading edge slats, which were slightly shorter but had a slightly increased chord, and new rounded, removable wingtips which changed the planview of the wings and increased the span slightly over that of the E series. Frise type ailerons replaced the plain ailerons of the previous models. 2R1 profile was used with a thickness to chord ratio of 14.2% at the root reducing to 11.35% at the last rib. As before, dihedral was 6° 32'.[57]
The wing radiators were shallower and set farther back on the wing. A new cooling system was introduced which was automatically regulated by a thermostat with interconnected variable position inlet and outlet flaps which would balance the lowest drag possible with the most efficient cooling possible. A new radiator, shallower but wider than that fitted to the E was developed. A boundary layer duct allowed continual airflow to pass through the airfoil above the radiator ducting and exit from the trailing edge of the upper split flap. The lower split flap was mechanically linked to the central "main" flap, while the upper split flap and forward bath lip position were regulated via a thermostatic valve which automatically positioned the flaps for maximum cooling effectiveness.[60] In 1941 "cutoff" valves were introduced which allowed the pilot to shut down either wing radiator in the event of one being damaged; this allowed the remaining coolant to be preserved and return to base with the damaged aircraft. However, these valves were delivered to frontline units as kits, the number of which, for unknown reasons, was limited.[61] These cutoff valves were later factory standard fitting for Bf 109G[62] and K series.[63][verification needed]
[edit] Armament
The armament of the Bf 109F was revised and now consisted of the two synchronized 7.92 mm MG 17s with 500 rpg above the engine plus a Motorkanone cannon firing through the propeller hub. Several aces, particularly Oberst Adolf Galland, criticised the light armament as inadequate for the average pilot. Major Walter Oesau preferred to fly an Emil, Werner Mölders on the other hand saw the single centerline gun as an improvement. It is possible that the criticism of the Bf 109F's armament is based on the early F-2 version with the 15 mm MG 151/15 cannon, which was later replaced by the 20 mm version of the same weapon and was praised for being highly effective by aces like Günther Rall[citation needed].With the early tail unit problems out of the way, pilots generally agreed that the F series was the best-handling of all the Bf 109 series.[64] Werner Mölders flew one of the first operational Bf 109F-1s over England from early October 1940; he may well have been credited with shooting down eight Hurricanes and four Spitfires while flying W.No 5628, Stammkennzeichen SG+GW between 11 October and 29 October 1940.[65][66]
[edit] Bf 109F variants and sub-variants
[edit] F-0, F-1, F-2
As the DB601E was not yet available in numbers the pre-production F-0 (the only F variant to have a rectangular supercharger intake) and the first production series F-1/F-2 received the 1,175 PS (875 kW) DB 601N engine driving a VDM 9-11207 propeller.[57] The F-0/F-1 and F-2 only differed in their armament, the F-1 being fitted with one 20 mm MG FF/M Motorkanone firing through the engine hub, with 60 rounds. The F-1 first saw action in the Battle of Britain in October 1940 with JG 51.[67] A total of 208 F-1s were built between August 1940 and February 1941 by Messerschmitt Regensburg and the Wiener Neustädter Flugzeugwerke.[68]The F-2 introduced the 15 mm Mauser MG 151/15 with 200 rounds.[69] The Motorkanone was supplemented by two synchronized 7.92 mm MG 17 machine guns, mounted under the engine cowl, with 500 rpg. As the harder hitting 20 mm version of the same gun become available, a number of F-2s were retrofitted with it on the field. About 1380 F-2s were built between October 1940 and August 1941 by AGO, Arado, Erla, Messerschmitt Regensburg and WNF.[68] No tropicalized version was built, although individual F-2s were retrofitted with sand filter in the field.[70] The maximum speed of the F-1 and F-2 was 615 km/h (382 mph) at rated altitude.
- F-0 (Pre-Production Aircraft built from E series airframes, Adolf Galland was one of the few to fly one operationally)
- F-1 (Armed with 1 × 20 mm MG FF/M Motorkanone cannon and 2 × 7.92 mm MG 17 machine guns)
- F-2 (Armed with 1 × 15 mm MG 151 cannon and 2 × MG 17)
- F-2/trop tropicalized version
[edit] F-3, F-4, F-5, F-6
The 1,350 PS (1,005 kW) DB 601E was used in the F-3 and F-4 model together with a VDM 9-12010 propeller with broader blades for improved altitude performance.[56][71] The DB 601 E was initially restricted to 1,200 hp at 2,500 rpm.[71] the full rating of 1,350 PS at 2,500 rpm was cleared for service use by February 1942.[72][verification needed] As opposed to the DB 601N which run on 100 octane aviation fuel designated as "C-3" by the Luftwaffe, the DB 601 E was satisfied with the use of 87 octane "B-4", despite its improved performance.[73]Only a handful of fifteen examples the F-3 are believed to have been produced by Messerschmitt Regesnburg between October 1940 and January 1941. Like the F-1, the F-3 was armed with the 20 mm MG-FF/M and two 7.92 mm MG 17s.[74]
From the F-4 onward, the new 20 mm Mauser MG 151/20 with 200 rounds used.[69] The first F-4s reached frontline units in June 1941. Production lasted exactly a year between May 1941 and May 1942, with 1841 of all F-4 variants produced.[75] Some of the later models were capable of mounting two 15 mm MG 151/15 cannons under the wing in faired gondolas with 135 rpg. These were designated as F-4/R1s, and 240 of them was produced by W.N.F. in the first quarter of 1942.[76] This optional armament for additional armament was standardized as field kit for later G and K series. A special high altitude variant, designated F-4/Z was also built with a production run of 544[73] in the first quarter of 1942 with GM-1 boost and saw extensive use.[77] Finally, the Erla factory produced 576 tropicalized F-4/trops in the first half of 1942.[73]
With its initial engine rating of 1,200 PS, the maximum speed of the F-4 (and F-3) was 635 km/h (394 mph) at rated altitude; with the clearance of the full rating of 1,350 PS, maximum speed increased to 670 km/h (416 mph).[78]
- F-3 (As F-1 with 601E engine, produced in limited numbers)
- F-4 (DB 601E engine, armed with one 20 mm MG 151/20 cannon and two 7.92 mm MG 17s)
- F-4/R1 (As F-4, but capable of mounting two 20 mm MG 151/20 cannons in underwing gondolas)
- F-4/Z (As F-4, high altitude fighter, with GM-1 boost)
- F-5 (Recon version of F-4, only two MG 17)
- F-6 (Recon version of F-4, improved camera equipment)
[edit] Bf 109G "Gustav"
[edit] Introduction
The Bf 109 G-series was developed from the F-series airframe and was largely identical to it, although there were detail differences. Modifications included reinforced wing structure, an internal bullet-proof windscreen, the use of heavier, welded framing for the cockpit transparencies, and additional light-alloy armour for the fuel tank. It was originally intended that the wheel wells would incorporate small doors to cover the outer portion of the wheels when retracted. To incorporate these the outer wheel bays were squared off. Two small inlet scoops for additional cooling of the spark plugs were added on both sides of the forward engine cowlings. A less obvious difference was the omission of the boundary layer bypass outlets, which had been a feature of the F series, on the upper radiator flaps.[79][80]Like most German aircraft produced in World War II, the Bf 109 G-series was designed to adapt to different operational tasks with greater versatility, both on the production line with kits of pre-packaged parts known as "Umrüst-Bausätze", usually contracted to Umbau and given an "/U" suffix, and through using field kits known as Rüstsätze, which bore an "/R" suffix. Special high-altitude interceptors with GM 1 nitrous-oxide injection high-altitude boost and pressurized cockpits were also produced.
The newly fitted Daimler-Benz DB 605A series was a development of the DB 601E engine utilised by the preceding Bf 109F-4. This was achieved through increasing the displacement and the compression ratio, as well as other detail improvements. Takeoff and emergency power of 1,475 hp was achieved with 1.42 ata of boost at 2,800 rpm. The DB605 suffered from reliability problems during the first year of operation, and this output was initially banned by VT-Anw.Nr.2206, forcing Luftwaffe units to limit maximum power output to 1,310 PS (975 kW) at 2,600 rpm and 1.3 atm manifold pressure. The full output was not reinstated until 8 June 1943 when Daimler-Benz issued a technical directive.[81] Up to 1944, the G series was powered the 1,475 PS Daimler-Benz DB 605 driving a three-blade VDM 9-12087A variable-pitch type with a diameter of 3 meters with even broader blades than as on the F series. Pitch control, as on the 109F, either "electro-mechanical"" (automatic) or "manual-electric" using a thumb-switch on the throttle lever.[81] From 1944 a new high altitude propeller with broader blades was introduced, designated VDM 9-12159, and was fitted to high altitude variants with the DB 605AS or D series engines.
The early versions of the Bf 109G closely resembled the Bf 109F-4 and carried the same basic armament - however, as the basic airframe was modified to keep pace with different operational requirements, the basically clean design began to change. From the spring of 1943, the G-series saw the appearance of bulges in the cowling when the 7.92 mm MG 17 was replaced with the 13 mm MG 131 machine guns (G-5 onwards) due to the latter's much larger breechblock, and on the wings (due to larger tyres), leading to the Bf 109G-6s nickname "Die Beule" ("The Bulge"). The Gustav continued to be improved constantly: cockpit visibility, firepower in the form of the 30 mm MK 108 cannon was added to the basic design in 1943, and a new, enlarged supercharger for the DB605, an enlarged vertical stabilizer (G-5 onwards), MW 50 power boost in 1944. It has been suggested the added weight of the new engines and heavier armament adversely affected the handling characteristics of the Bf 109, especially since it already had a high wing loading. While technically the statement is true, it is somewhat unfair as analysis show only a modest increase in weight as a result of development, fairly comparable to the development trend with Western Allied fighters.[citation needed]
Erich Hartmann, the World's top scoring fighter ace, claiming 352 victories, flew only the Bf 109G, of which he said:
From the Bf 109G-5 on an enlarged wooden tail unit (identifiable by a taller vertical stabilizer and rudder with a morticed balance tab, rather than the angled shape) was often fitted. This tail unit was standardised on G-10s and K-4s. Although the enlarged tail unit improved handling, especially on the ground, it weighed more than the standard metal tail unit, and required that a counterweight was fitted in the nose, increasing the variant's overall weight.[83]It was very manoeuverable, and it was easy to handle. It speeded up very fast, if you dived a little. And in the acrobatics manoeuver, you could spin with the 109, and go very easy out of the spin. The only problems occurred during take-off. It had a strong engine, and a small, narrow-tread undercarriage. If you took off too fast it would turn [roll] ninety degrees away. We lost a lot of pilots in take-offs.[82]
With the Gustav, a number of special versions were introduced to cope with special mission profiles. Here, long range fighter-reconnaissance and high-altitude interceptors can be mentioned. The former were capable of carrying two 300 litre (66 Imp gal) droptanks, one under each wing, the latter received pressurized cockpits for pilot comfort and GM-1 nitrous oxide "boost" for high altitudes. The latter system was capable of increasing engine output for limited periods by 300 horsepower (220 kW) above the rated altitude and high altitude performance above of that of any Allied fighter in service in 1942-43.[citation needed]
[edit] Early Gustav models
[edit] G-1, G-2
The G-1, produced from February 1942, was the first of the G-series. This was the first production Bf 109 with a pressurized cockpit and could be identified by the small, horn-shaped air intake for the cockpit compressor just above the supercharger intake, on the left upper cowling. In addition, the angled armour plate for the pilot's head was replaced by a vertical piece which sealed-off the rear of the side hinged cockpit canopy. Small, triangular armour-glass panels were fitted into the upper corners of this armour, although there were aircraft in which the plate was solid steel. Silica gel capsules were placed in each pane of the windscreen and opening canopy to absorb any moisture which may have been trapped in the double glazing. The last 80 G-1s built were lightweight G-1/R2s. In these GM-1 nitrous oxide 'boost' was used, and the pilot's back armour was removed, as were all fittings for the long range drop tank. A few G-1s flown by I./JG 1 are known to have carried the underwing, 20 mm MG 151/20 cannon gondolas.[84] Maximum speed, at the initial reduced rating of the DB 605A-1 engine, was 660 km/h (410 mph) at 7,000 m (22,966 ft) altitude. If the GM-1 booster was fitted, the Gustav was even faster at altitude; with a Bf 109G-1/R2 with GM-1 injection, R. Klein had achieved 680 km/h (423 mph) at 12,000 m (39,370 ft) and a ceiling of 13,800 m (45,276 ft).[citation needed]The G-2, which started production in May 1942 lacked the cabin pressurization and GM-1 installation.[85] Performance-wise it was identical to the G-1. The canopy reverted to one layer of glazing and incorporated the angled head armour used on the F-4, although several G-2s had the vertical type of the G-1. Several Rüstsätze could be fitted, although installing these did not change the designation of the aircraft. Instead the /R suffix referred to the G-2s Rüstzustand or equipment condition of the airframe, which was assigned at the factory, rather than in the field. There were two Rüstzustand planned for G-2s:
- G-2/R1: had one 300 l (79 US gal) drop tank beneath each wing, plus an ETC bomb rack under the fuselage, capable of carrying a 500 kg (1,102 lb) bomb and an auxiliary undercarriage unit beneath the fuselage. Also could carry a large jettisonable tail wheel, just aft of the cockpit.[86]
- G-2/R2: a reconnaissance aircraft with GM-1 and camera equipment.
167 G-1s were built between February and June 1942, and 1586 G-2s between May 1942 and February 1943; one further G-2 was built in Győr, Hungary, in 1943.[79] Maximum speed of the G-2 was 537 km/h (334 mph) at sea level and 660 km/h (410 mph) at 7,000 m (22,966 ft) rated altitude with the initial reduced 1.3 atm rating. Performance of the G-1 was similar, but above rated altitude the GM-1 system could be used for additional performance: 680 km/h (422 mph) could be achieved at 12,000 m (39,370 ft).
The following variants of the G-1 and G-2 were produced:
- G-0 (Pre-production aircraft, powered by a DB 601E engine)
- G-1 (Pressurized fighter, w. GM 1)
- G-1/R2 (Reconnaissance fighter)
- G-1/U2 (High altitude fighter with GM-1)
- G-2 (Light fighter)
- G-2/R1 (Long-range Fighter-bomber or JaboRei- 2 × 300 l/79 US gal underwing drop tanks, one 500 kg/1,102 lb bomb under fuselage, extended second tail wheel for large bombs)
- G-2/R2 (Reconnaissance fighter)
- G-2/trop (Tropicalized fighter)
[edit] G-3, G-4
In September 1942, the G-4 appeared; this version was identical to the G-2 in all respects, including performance, except for being fitted with the FuG 16 V.H.F. radio set, which provided much clearer radio transmissions and had three times the range of the earlier H.F. sets. Externally this could be recognised by the position of the fuselage antenna lead-in which was moved further aft to between frames seven and eight on the fuselage spine.[88] Due to the steady weight increases of the 109, from the spring of 1943 larger 660 x 160 mm mainwheels were introduced, replacing the previously used 650 x 150 mm. The undercarriage legs were altered so that the wheel's vertical axis was nearly upright rather than being parallel with the oleo leg. These changes resulted in the fitting of teardrop shaped fairings to the upper wing surface above the wheel-wells to accommodate the upper part of the mainwheels. The larger wheels and fairings were often retro-fitted to G-2s.[89] In addition, a larger 350 x 135 mm tailwheel replaced the original 290 x 110 mm one; the larger tailwheel no longer fitted the recess, so the retraction mechanism was disconnected and the tailwheel fixed down.[90] Up to July 1943, 1,242 G-4s were produced, and an additional 4 were produced in Győr and WNF factories in the second half of 1943.[91] 50 examples of a pressurized version, G-3 were also produced between January-February 1943, this was similar to the G-1 although it was equipped with the V.H.F. radio set FuG 16 as the G-4.The following variants of the G-3 and G-4 were produced:
- G-3 (Pressurized fighter, as G-1 with FuG 16 V.H.F. radio; only 50 built)
- G-4 (Fighter)
- G-4/R2 (Reconnaissance fighter)
- G-4/R3 (Long-range Reconnaissance fighter, with 2 × 300 l/79 US gal underwing droptanks)
- G-4/trop (Tropicalized fighter)
- G-4/U3 (Reconnaissance fighter)
- G-4y (Command fighter)
[edit] G-5, G-6
In February 1943 the G-6 was introduced with the 13 mm MG 131s, replacing the smaller 7.92 mm MG 17 - externally this resulted in two sizeable blisters over the guns. These bulges reduced speed by nine km/h.[citation needed]Over 12,000 examples were built well into 1944; the exact number being impossible to ascertain due to numerous variants and rebuilds. The G-5 was identical to the G-6 with pressurized cockpit, and of which 475 examples were built between May 1943 and August 1944. The G-5/AS was the first to be equipped with a DB 605AS engine for high altitude missions. GM-1-boosted G-5 and G-6 variants received the additional designation of /U2.
The G-6/U4 variant was armed with a 30 mm MK 108 cannon mounted as a Motorkanone firing through the propeller hub instead of the 20 mm MG 151/20. The G-6 was very often seen during 1943 fitted with assembly sets, used to carry bombs or a drop tank, for use as night-fighter, or to increase fire power by adding rockets or extra gondola guns.
The following variants of the G-5 and G-6 were produced:
- G-5 (Pressurized fighter)
- G-5/U2 (High altitude fighter with GM1 boost)
- G-5/U2/R2 (High altitude Reconnaissance fighter with GM1 boost)
- G-5/AS (High altitude fighter with DB605AS)
- G-5y (Command fighter)
- G-6 (Light fighter)
- G-6/R2 (Reconnaissance fighter, with MW 50)
- G-6/R3 (Long-range Reconnaissance fighter, with 2 × 300 l/79 US gal underwing droptanks)
- G-6/trop (Tropicalized fighter)
- G-6/U2 (Fitted with GM-1)
- G-6/U3 ((Reconnaissance fighter)
- G-6/U4 (MK108 Motorkanone 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 Motorkanone engine cannon)
[edit] Late Gustav models
[edit] Improvements to the design
During the course of 1943, a number of improvements were gradually introduced. In an attempt to increase his field of view an armoured glass head-rest, the so-called Galland Panzer begun to be fitted in the spring of 1943, replacing the bulky armour plate. Towards the end of the year the clear-view Erla Haube canopy appeared, often mis-named the "Galland Hood" in postwar Western aviation books and periodicals, eventually replacing the older heavily framed two-piece canopy on the Bf 109G, named after one of the sub-contractors involved in building the Bf 109. The canopy structure was completely redesigned to incorporate a greater area of clear perspex, the welded framing was reduced to a minimum and there was no longer a fixed rear portion, with the entire structure aft of the windscreen being hinged to swing to starboard when opened.[92]The Bf 109 G-10, AS-engined G-5s, G-6s and G-14s as well as the K-4 saw a refinement of the engine cowlings. The blisters which had formally covered the spent shell-casing chutes of the MG 131s became more streamlined and were lengthened and enlarged to cover both the weapons and the engine bearers. Initial prototype versions were symmetrical, but as larger superchargers were fitted, the engines required modified upper engine bearers to clear the supercharger housing, and as a result the final shape of the new cowling was asymmetrical, being enlarged on the port size where the supercharger was mounted on the DB engine. There were also special streamlined panels fitted to the forward fuselage. These so-called agglomerations could be seen in several different patterns. Because of their aerodynamically more efficient form in a side view of DB 605AS and D powered Bf 109 Gs and Ks the agglomerations were barely discernible compared with the conspicuous fairings they replaced.[93]
[edit] Late production G-6, G-14, G-14/AS
Some versions of the G-6 and later Gs had a taller tail unit and redesigned rudder which improved stability at high speeds. The introduction of the WGr. 21 cm under-wing mortar/rockets and the 30 mm MK 108 cannon increased firepower. Certain production batches of the Gustav were fitted with aileron Flettner tabs to decrease stick forces at high speeds. Advanced radio/navigational equipment was also introduced.[citation needed]Subsequent Bf 109G versions were basically modified versions of the G-6. Early in 1944, new engines with larger superchargers for improved high-altitude performance (DB 605AS), or with MW-50 water injection for improved low/medium altitude performance (DB 605AM), or these two features combined (DB 605ASM) were introduced into Bf 109 G-6. Maximum speed of the G-5/G-6 was 500-510 km/h (310-316 mph) at sea level, 625-630 km/h (388-391 mph) at 6,600 m (21,654 ft)-rated altitude using the restricted 1.3 atm boost, and when using the full 1.42 atm boost 530 and 640 km/h (329 and 398 mph) respectively. Figures are without MW-50 or GM-1 boost.[citation needed]
The G-14, appearing in mid-1944, was basically a late-war Bf 109 G-6 with the aforementioned improvements standardized, and with MW 50 methanol/water injection increasing output to 1,342 kW (1,800 hp) being a standard fitting. High-altitude models of the G-14 received the DB 605ASM engine and were named G-14/AS. There was increasing tendency to use wood on some less vital parts (e.g. on a taller tailfin/rudder unit, pilot seat or instrument panel) - not because of the shortage of strategic materials like aluminium as often suggested, but as it allowed freeing up metalworking capacity by involving of the woodworking industry of more parts.[citation needed]
The following variants of the G-14 were produced:
- G-14 (Fighter; standardized late production G-6; MW 50 boost serial standard)
- 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 Motorkanone engine cannon)
[edit] G-10
Referred to as the "bastard aircraft of the Erla factory" in the Luftwaffe's Aircraft Variants Book of December 1944,[94] the G-10 was a Bf 109 G airframe combined with the new DB 605D engine, in order to maintain production levels with minimal disruption of the production lines until production of K-series airframes would reach sufficient levels. Despite what the designation would suggest, it appeared in service after the G-14 in November 1944, largely replacing previous G-series aircraft on the production lines of Erla, WNF and Messerschmitt Regensburg factories. Evidence suggests that G-10s were rebuilt from older airframes supplementing production of the new K-4s with aircraft of almost equal value in the cheapest possible manner. One apparent indication was two aircraft identification plates on the port forward fuselage, below the windscreen rather than one.[95]The most recognizable external change was the use of the "Erla-Haube" clear view canopy. Internal changes included inheriting the new 2,000 W generator and the DB 605D engine of the 109K. Apart from the standardised streamlined engine cowlings the G-10s with the DB605D were equipped as standard with the MW-50 booster system (DB 605DM) and had a larger Fo 987 oil cooler housed in a deeper fairing. Also, because of the engine's enlarged crankcase and the oil return lines which ran in front of it, these G-10s had small blister fairings incorporated into the lower engine cowlings, forward of and below the exhaust stacks.[96]
The following variants of the G-10 were produced:
- G-10 (Light fighter with DB605DM or DB/DC engine)
- G-10/R2 (Bad-weather fighter with PKS 12 autopilot)
- G-10/R5 (Reconnaissance fighter)
- G-10/R6 (Bad-weather fighter)
- G-10/U4 (Fighter, with 30 mm MK 108 Motorkanone engine cannon)
[edit] Miscellaneous variants: G-8, G-12
The G-8 was a dedicated reconnaissance version based on the G-6. The G-8 had often only the Motorkanone engine cannon or the cowling machine guns installed and there were several subversions for short or long range reconnaissance missions with a wide variety of cameras and radios available for use.[97]The Bf 109 G-12 was a two-seat trainer version of the Bf 109. This was a conversion of "war weary" or rebuilt G-4 and G-6 airframes;[94][98] the space needed for the second cockpit was gained by reducing the internal fuel capacity to only 240 l (63 US gal) meaning that the 300 l (79 US gal) drop tank was employed as standard equipment. This version was rarely armed with anything more than one or two cowling machine guns.[99] The rear cockpit canopy was bowed out to give the instructor, who sat behind the student pilot in an armoured seat, a clearer view. The rear cockpit was also equipped with a basic instrument panel and all flight controls.
Bf 109G subtypes and variants
The base subtypes could be equipped with a Rüstsatz add-on standard field kits, in practice this meant hanging on some sort of additional equipment like droptanks, bombs or cannons to standard attachment points, present on all production aircraft. Aircraft could be modified in the factory with Umrüst-bausatz (Umbau) conversion kits or by adding extra equipment, designated as Rüstzustand, to convert standard airframes for special roles - a reconnaissance fighter or bad-weather fighter, for example. Unlike the Rüstsatz field-kits these modifications were permanent.
The Rüstsatz-kits were designated by the letter R and a Roman number. Rüstsatz-kits did not alter the aircraft's designation, so a Bf 109G-6 with Rüstsatz II (50 kg/110 lb bombs) remained designated as Bf 109G-6, and not 'G-6/R2' - the G-6/R2 was a reconnaissance fighter with MW 50 - as suggested by most of the publications. The Umrüst-bausatz, Umbau. or Rüstzustand were identified with either an /R or /U suffix and an Arab number, i.e. Bf 109 G-10/U4.
Common Rüstsatz kits, Bf 109G[100]
- R I ETC 501/IX b bomb rack under the fuselage, fusing equipment for a SC 250 or SD 250 type 250 kg (551 lb) bomb
- R II ETC 50/VIII d bomb rack under the fuselage, fusing equipment, for four SC 50 type 50 kg (110 lb) bombs
- R III Schloß 503A-1 rack for one fuselage drop tank (300 l/79 US gal).
- R IV two 30 mm Rheinmetall-Borsig MK 108 underwing gunpods.
- R VI two 20 mm Mauser MG 151/20 underwing gunpods with 135 rpg.
- R VII Peilrufanlage.
- U1 Messerschmitt P6 reversible pitch propeller to be used as air brake, only prototypes
- U2 GM-1 boost, during 1944 several hundred converted to MW-50 boost
- U3 Reconnaissance conversion, in autumn 1943 G-6/U3 adopted as G-8 production variant
- U4 30 mm MK 108 Motorkanone engine-mounted cannon
[edit] Bf 109H
The Bf 109H was intended to be a high-altitude fighter, developed from the F-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 (466 mph) at 10,100 m (33,136 ft). A small number of Bf 109H-1s were built, flying several sorties over Britain and France. Bf 109 H-2 and H-5 developments were also planned, before the entire H-series was scrapped because of wing flutter problems.[101]- H-0 Pre-production aircraft, rebuilt from F-4/Z, powered by a DB 601E engine with GM-1 boost
- H-1 Production version, based on G-5 airframes, powered by a DB 605A engine with GM-1 boost
[edit] Bf 109K "Kurfürst"
[edit] K-4
The Bf 109K "Kurfürst" were the last of the series to see operational duty and the last in the Bf 109 evolutionary line. The K series was a response to the bewildering array of series, models, modification kits and factory conversions for the Bf 109, which made production and maintenance complicated and costly — something Germany could ill-afford late in the war. The RLM ordered Messerschmitt to rationalise production of the Bf 109, consolidating parts, types, and so on, to produce a uniform, standard model with better interchangeability of parts and equipment. At the same time, the existing flaws of the design were to be remedied. Work on the new version began in the spring of 1943, and the prototype was ready by the autumn of that year. Series production started in August 1944 with the K-4 model, due to changes in the design and delays with the new DB 605D powerplant. The K-4 was the only version to be mass produced.[102]Externally the K series could be identified by changes in the locations of the radio equipment hatch,[103] which was moved forward and to a higher position between frames four and five, and the filler point for the fuselage fuel tank, which was moved forward to a location between frames two and three. In addition the D/F loop was moved aft to sit between frames three and four on the top fuselage spine and a small circular plate above the footstep on the port side of the fuselage was deleted. The rudder was fitted as standard with a Flettner tab and two fixed tabs although some rare examples were not fitted with the fixed tabs. All K-4s were to be fitted with a long retractable tailwheel (350 x 135 mm) with two small clamshell doors covering the recess when the tail-wheel was retracted.
The wings featured the large rectangular fairings for the large 660 x 190 mm main wheels. Small wheel well doors, originally planned for the G series, were fitted to the outer ends of the wheel bays, covering the outer wheels when retracted. These doors were often removed by front-line units. The ailerons were fitted with small, adjustable trim tabs. The radio equipment was the FuG 16ZY with an antenna mast fitted under the port outer wing and FuG 25a IFF as well as the FuG 125 Hermine D/F equipment. Internally the oxygen bottles were relocated from the rear fuselage to the right wing.[104] Flettner tabs for the ailerons were also to be fitted to serial production aircraft to reduce control forces, but are only seen on photos of later production aircraft.
Armament of the K-4 consisted of a 30 mm MK 108 engine-mounted cannon (Motorkanone) with 65 rounds, and two 13 mm MG 131s in the nose with 300 rpg although some K-4s were fitted with the MG 151/20 as the Motorkanone.[105] Additional Rüstsätze, or equipment kits, such as a 300 l (79 US gal) drop tank (R III), bombs up to the size of 500 kg/1,102 lb (R I), under wing 20 mm Mauser MG 151/20 cannon gondola pods (R IV) or 21 cm Wfr.Gr. 21 rockets (as on the Gustav models) could be carried after minimal preparations; the latter two however were rarely used, but there is evidence that III./JG 26 were almost completely equipped with K-4s which were fitted with R IV. In addition there were problems with the 30 mm MK 108 Motorkanone:
Power was provided by a Daimler-Benz DB 605DM (early models) of 1,800 PS output and later the DB 605DB/DC powerplant with 1,850/2,000 PS output.[107] A wide-chord, three bladed VDM 9-12159 propeller of 3 m diameter, optimized for high altitudes then converted this output into thrust.[108]The 30mm cannon were extremely potent weapons, but they had a tendency to jam, and apparently all of the K-4s supplied to III./JG 26 were also equipped with 20mm-guns in the hated underwing tubs. Uffz. Georg Genth's regular aircraft was a G-10, but on occasion he flew a K-4. He preferred the G-10 as a dogfighter, as the K-4's bulky armament sharply reduced its manouevrability.[106]
Deliveries began in mid-October 1944. 534 examples had been delivered by the Messerschmitt A.G., Regensburg by the end of November 1944,[108] and 856 by the end of the year.[109] Regensburg delivered a total of 1593 by the end of March 1945, after which production figures are missing. With such a high rate of production, despite continuous heavy fighting, by the end of January 1945 314 K-4s - about every fourth 109 - were listed on hand with the 1st line Luftwaffe units. Ultimately it was intended to equip all Bf 109 units with the 109K, which marked the final stage of 109 development before the jet age.[110]
The Bf 109 K-4 was the fastest 109 of world War II, reaching 715 km/h (445 mph) at 7,500 m ( ft) altitude; improved propellers were being developed when the war ended which would boost the speed to 727 km/h (452 mph),[111] and 741 km/h (460 mph) was expected with a swept-back propeller design.[112] Rate of climb was outstanding, up to 4,820 ft (1,470 m)/min at 1.98 atm[111] and 4,525 ft (1,380 m)/min at 1.8 atm.[citation needed] With such improvements in performance, the Bf 109 remained comparable to opposing fighters until the end of the war. However, the deteriorating ability of the thousands of novice Luftwaffe pilots by this stage of the war meant the 109's strengths were of little value against the numerous and well-trained Allied fighter pilots.
[edit] Other Bf 109K projects and prototypes
Several other versions were projected based on the 109K airframe - K-6, K-8, K-10 and K-14. In the proposed K-6 the armament would have been two MG 131 above the engine, along with a MK 108 Motorkanone and an internally mounted MK 108 in each wing, with 45 rpg. Alternatively, the wing MK 108s could be substituted by 20 mm MG 151/20s, with 100 rpg. Armour weight was increased to 200 lb (91 kg). Take-off weight was 7,986 lb (3,622 kg). Some K-6 prototypes were built and tested at the Tarnewitz weapons-testing centre.Project drawings of the K-10 show an K-series airframe powered by the two-stage DB 605L high altitude engine, a high-velocity 30 mm MK 103mot Motorkanone, and two 30 mm MK 108 cannons in the wings; the cowl 13 mm MG 131s heavy machine guns were dispensed with.[citation needed]
Some sources point to limited use of the K-14, intended as high-altitude heavy fighter. Two airframes are listed as delivered to II/JG52 under Major Wilhelm Batz in late spring of 1945, these being armed with only one 30 mm cannon, but the type`s existence cannot be positively confirmed. The K-14 was powered by the DB 605L, with a rumoured use of a four bladed propeller, 460 mph (740 km/h) and an operational altitude of 38,000 ft (12,000 m) was projected. Armour and armament were otherwise similar to the K-6.[citation needed]
Common Rüstsatz kits, Bf 109K[113]
- R I ETC 501/IX b or Schloß 503belly bomb rack, fusing equipment for fitting a 250 or 500 kg bomb
- R III Schloß 503A-1 rack for one fuselage drop tank (300 l/79 US gal).
- R IV two 20 mm Mauser MG 151/20 underwing gunpods with 135 rpg.
- R VI BSK 16 gun-camera in the left wing between nose ribs 3 and 4.
- K-0 Pre-production aircraft, powered by a DB 605DM engine
- K-2 proposed version without pressurized cockpit
- K-4 only serial production version without pressurized cockpit, powered by a DB 605DM, DB or DC engine
- K-6 proposed heavy fighter version, as K-4 with reinforced wings holding two additional 30 mm MK 108 cannons and additional armour
- K-8 proposed reconnaissance version, equipment similar to G-8
- K-10 proposed version, similar to K-6, MK 103mot engine cannon instead of MK 108
- K-12 proposed version, dual-seat trainer similar to G-12
- K-14 proposed version, similar to K-6, powered by a DB 605L engine
[edit] 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 Akagi), they started the construction of Graf Zeppelin as part of the rebuilding of the navy. The air group for the carrier was settled on Messerschmitt Bf 109T fighters and Ju 87T dive bombers. The suffix 'T' denotes carrier, 'Träger', in German use.[114]Despite references to a Bf 109T-0 version.[114] this version never existed. Seven earlier versions (Bf 109 B, Bf 109 C, Bf 109 E) were converted to test carrier equipment. This included, adding a tail-hook, catapult fittings and increasing the wingspan to 11.08 m. The ailerons were increased in span, as were the slots, and flap travel was increased. The wings were not mofified to be folding since the ship Graf Zeppelin was designed around the intended aircraft, so the lifts could accommodate the Bf 109T with its 11-metre wingspan. The wings could, however, be detached from the fuselage for transport purposes, as in every version of the Bf 109.[115][116][117]
Following flight tests, especially the catapult tests, a series of 70 T-1s with DB601Ns was to be produced at Fieseler in Kassel, but after seven T-1s were built, the carrier project was canceled. The remaining 63 of 70 T-1s were built as T-2s without carrier equipment and some of the T-1s may have been "upgraded" to T-2 standard. It was found that the performance of the T-2 was closely comparable to the E-4/N and, because of its ability to take-off and land in shorter distances, these fighters were assigned to I/JG.77, deployed in Norway on landing strips which were both short and subject to frequent, powerful cross-winds.[118] At the end of 1941 the unit was ordered to return their aircraft to Germany and received E-3s as replacements.[119] The armament of the Bf 109T consisted of two MG 17 above the engine and one MG FF/M cannon in each wing.[114]
Interest in Graf Zeppelin revived 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.[citation needed] The Bf 109Ts were issued to several training units in 1943. Then, in April 1943 the Jagdstaffel Helgoland was formed[120] and operated from Düne until late 1943 when the unit transferred to Lister in south Norway. The unit was re-named as 11./JG 11 as of 30 November 1943[121] and the Bf 109Ts remained in operations until the summer of 1944, after which some were used in training units in Germany.
[edit] 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, in a manner paralleled by the F-82 Twin Mustang. Two variants of this aircraft were proposed, one an interceptor armed with five 30 mm cannons, the other a fighter-bomber with a 1,000 kg (2,205 lb) bomb load. Only one Bf 109Z was built, and it was never flown, having been damaged in an Allied bombing raid while in hangar and the project was permanently abandoned in 1944.[2][edit] Survivors
See Messerschmitt Bf 109 survivors.[edit] Operational History
[edit] Combat Service with the Luftwaffe
The Bf 109 was credited with more aerial kills than any other aircraft. 105 Bf 109 pilots, and possibly four more, were credited with the destruction of 100 or more enemy aircraft. Of these, 13 of these men scored more than 200 kills, and two scored more than 300. Altogether this group were credited with nearly 15,000 kills between them.[122] Official ace status was granted to any pilot who scored five or more kills. Applying this to Luftwaffe fighter pilots and their records reveals that "Ace" status belonged to more than 2,500 German pilots.[123] The majority of Bf 109 pilots scored their kills against the Soviets, however five pilots did record over 100 claims against the Western Allies. Luftwaffe records show, that during Operation Barbarossa, German pilots claimed 7,355 kills on the Bf 109, between the seven Jagdgeschwader (JG 3, JG 27, JG 51, JG 53, JG 54, JG 77, and LG 2) for exactly 350 losses in aerial combat, a ratio of just over 21:1, and the highest achieved by the Germans on the Eastern Front.[124] a Between January and October 1942, a further 18 German pilots joined the select group of pilots that had now reached 100 kills over the Eastern Front. During this period Bf 109 pilots claimed 12,000 Soviet aircraft destroyed.[125]b[edit] Combat service with Italy
- Regia Aeronautica (1942-1943)
- ANR (1943-1945)
II°Gr.C was composed of three Squadriglie (squadrons); 1ª Sq.Gigi Tre Osei (nickname of ace Luigi Canappele) commanded by Tenente Ugo Drago, 2ª Sq.Diavoli Rossi (Red Devils) commanded by Capitano Mario Belligambi, and 3ª Sq.Gamba di Ferro (Iron Leg) commanded by Tenente Giuseppe Gianelli.[129]
The unit's first operation with the Bf 109 occurred on 22 June 1944; 11 Bf 109s sortied from the airfield, although nothing was achieved.
I°Gr.C continued to use a combination of Macchi 205s and Fiat G.55s although, for various reasons, mainly political[130] the unit rarely operated from August 1944 through to December, when the first Bf109G-12 trainer arrived. In January 1945 I°Gr.C headed for the Luftwaffe flying school at Holzkirchen in Germany to convert to the Messerschmitts.
At the beginning of February, 57 of I° Gruppo's pilots were ready for operations with the Me 109; 51 G-6, G-10/AS and K-4s, most of which came directly from Germany, were available at the end of the month. The fighters were placed on the heath between Lonate Pozzolo and Malpensa airfields, and carefully camouflaged to protect them from Allied air raids. The first combat operation occurred on 14 March 1945. I° Gruppo attempted to intercept B-25 Mitchells of the 321st Bomb Group near Lake Garda but, in turn, were bounced by P-47 Thunderbolts of the 350th Fighter Group. 1° Gruppo had three pilots dead, one wounded, three planes lost and six damaged; in return one P-47 was claimed by the Commander Adriano Visconti..
The 10 of April three Bf 109, flown by Sottotenente (Flying Officer) Umberto Gallori, of Maresciallo (Warrant Officer) Mario Veronesi and Marescialllo Dino Forlani, intercepted P-47 from 57° Fighter Squadron over Milan and Como. Forlani claimed a P-47 damaged, but the other two Italian fighters were hit and lightly damaged. On 19 April, 1° Gruppo "Asso di bastoni" had its last combat, its last claim and its last loss. Two B-24s from 2641° Provisional Group, were on Valtellina, on the border with Switzerland, to parachute arms and supplies to Italian partisans. Four Italian Bf 109 scrambled to intercept the four engined planes. One of the B-24, entered in Switzerland air space. The other B-24 hit the fighter of Sottotenente Aurelio Morandi that fell down near Cassina Rizzardi, Como, killing the pilot. Then, Tenente Oddone Colonna shot all of his ammunitions on the B-24 and Sergente Maggiore Giandomenico Brunello at last shot it down with his 30mm cannon. The Liberator fell between the villages of Mozzate and Cislago, but the crew baled out. Four American airmen were helped by partisans, five were captured by Italians and Germans. They were at the funeral of Morandi, to whom, Adriano Visconti, commander of 1° Group, credited their last victory, "on the memory". On the 30 of April the Group was dismantled. Visconti was arrested and, next day, shot in the back by a Russian, bodyguard of "Iso", a chief of partisan in Milan. "[131]
[edit] Combat service with Hungary
In October 1942 the Luftwaffe agreed to partially re-arm Hungarian fighter units with the Bf 109. Subordinated to the German Jagdgeschwader 52 on the Eastern Front, the first Hungarian fighter unit to convert to the Bf 109F-4/B was the RHAF's 1./1. vadászszázad (fighter squadron). After brief training on the type, the first combat sortie was flown by Lukács Ottó zászlós (ensign) on 15 October 1942. The unit was mainly engaged in fighter-bomber and strafing attacks, until on 16 December 1942 four Ilyushin Il-2s were shot down by Bánlaky főhadnagy and Pánczél hadnagy - the first victims of the RHAF's 109s. Several other fighter units converted to the 109F and later G models during the course of 1943 and were heavily engaged in combat on the Eastern Front.[132] Realizing that the locally produced, but obsolate Reggiane 2000 Héja fighters were not up to the task, the RHAF begun equipping fighter squadrons in the Home Air Defense as well in late 1943. During April and May 1944, the new Bf 109Gs, many of which were produced domestically under licence at the Hungarian Messerschmitt factory of Győr, were concentrated into the 101. Honi Légvédelmi Vadászrepülő Osztály (101st Home Air Defense Fighter Wing), also known as the 'Pumas' after the units insignia, led by the experienced Eastern Front-veteran Heppes Aladár őrnagy (major).[133] During 'The American Season', between May and August 1944, the 101. had claimed for 15 P-51s, 33 P-38s and 56 four-engined bombers.[134] By November 1944 the 101. was re-organized into a fighter regiment, and was re-equipped with the latest Messerschmitt Bf 109G-10 and G-14 types. However, combat missions against the 15th USAAF have came to an end, and the 101. was main adversary in the air was the Red Air Force.[135] Retreating while fighting into Austria, the unit set its last remaining Bf 109s on fire at Raffelding airbase to avoid them being falling into the hands of advancing U.S. troops on the 4 May 1945.[136] One example of a Hungarian Bf 109, a G-10/U4 Werknummer 611 943 however survives to this day at the Planes of Fame Museum.[edit] Combat service with Finland
In 1943, the Finnish Air Force received its first Bf 109s. A total of 162 aircraft of this type were to be purchased and the first aircraft landed in Finland on 13 March 1943. In total, 159 aircraft were taken into service, as two G-6s and one G-8 were destroyed en route to Finland. Of these, 48 were G-2s, 109 were G-6s and 2 were G-8s. Bf 109 is still the aircraft that has served in the largest numbers in the Finnish Air Force. The aircraft was called "Mersu" in popular speech (the same as the nickname for Mercedes-Benz cars, whose parent company Daimler-Benz produced the Bf 109 engine) and carried the designation MT and a 3-digit identification number. With the arrival of the 109s, the fight was more equal, as they could match the latest Soviet fighters. The last of the purchased aircraft arrived in Finland on 20 August 1944, just before the armistice with the Soviet Union.[citation needed]During the Continuation War, Bf 109s were in service with fighter squadrons 24, 28, 30 and 34:
HLeLv 24 | HLeLv 28 | HLeLv 30 | HLeLv 34 | |
---|---|---|---|---|
Victories | 304 | 15 | 3 | 345 |
Losses in combat | 14 | 0 | 2 | 18 |
102 Bf 109s survived the war and the aircraft was to be the main fighter of the Finnish Air Force for almost a decade after the end of the Second World War. Despite the aircraft's expected short life span (it was built as a wartime aircraft and was calculated to last about 100-200 flight hours), it was not taken out of service until spring 1954 when the FAF entered the jet age. The last flight was on 13 March 1954 by Major Erkki Heinilä in aircraft MT-507.
- Museum aircraft in Finland
[edit] Combat service with Switzerland
See also: History of the Swiss Air Force
Switzerland took delivery of the first of its 115 Bf 109s in 1938 when ten Bf 109Ds were delivered. After this, 80 109E-3s were purchased which arrived from April 1939 until just before the German invasion of France in summer 1940. During the war, a further four 109s (two Fs and two Gs) were acquired by the Swiss Air Force through internment. The 109Es were supplemented by eight aircraft licence manufactured from spare parts by Doflug at Altenrhein, delivered in 1944.In April 1944, 12 further G-6s were acquired in exchange for the destruction of a highly secret Messerschmitt Bf 110G nightfighter which made an emergency landing in Switzerland. The new 109Gs suffered from numerous manufacturing defects and after problematic service were withdrawn from use by May 1948. The 109Es continued in service until December 1949.[140]
On 10 May 1940, air combat between Switzerland and Germany was initiated. Several Swiss Bf 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.
On 1 June the Flugwaffe dispatched 12 Bf 109 E-1s to engage 36 unescorted German Heinkel He 111s of Kampfgeschwader 53 that were crossing Swiss airspace to attack the Lyon - Marseilles railway system. The Swiss Air force sustained its first casualty in the engagement when Sub Lieutenant Rudolf Rickenbacher was killed when the fuel tank of his Bf 109 exploded after being hit by the Heinkel's return fire. However, the Swiss Emils shot down six He 111s.[141]
On 8 June, a C-35 observation aircraft, an antiquated biplane, was attacked over the Jura Mountains by two German Bf 110s; the pilot and observer were killed. Later on the same day, Swiss Captain Lindecker led about 15 Swiss Emils to intercept a formation of German He 111s escorted by II./Zerstörergeschwader 1's Bf 110s. The engagement resulted in five Bf 110s being shot down (including the Staffelkapitän Gerhard Kadow) for the loss of one Swiss Bf 109.[141]
In the latter stages of the war, Swiss Messerschmitts were painted with red and white striped "neutrality markings" around the fuselage and main wings to avoid confusion with German 109s.
[edit] Combat service with Yugoslavia
From 1939-1941, Yugoslavia received 83 Bf 109E-3s with the first two aircraft delivered in beginning of 1939. However, the aircraft were grounded most of the time due to a lack of spare parts which was a German war tactic. The Yugoslav pilots were not happy with the Bf-109 after several landing accidents due to the Messerschmitt's narrow landing gear and constant mechanical failures. During the Axis Invasion of Yugoslavia in April 1941, the Royal Yugoslav Air Force for the first time deployed their Bf-109's in combat. The defense of Belgrade (6 LP 31 and 32nd group) saw the heaviest fighting with both Yugoslav and German Bf-109s going head to head. The Yugoslav pilots performed bravely and shocked their German counter parts by ramming their planes this was believed to be a new tactic of desperation and would eventually be seen used by German pilots themselves in the final years of the war against Allied bombers. By the end of the first day of the battle, Yugoslav pilots managed to destroy several German planes. Almost every pilot claimed a German plane despite facing overwhelming odds of 5:1. Elite squadrons JG54th, JG27th, JG26th and JG77th escaped Yugoslavia to Egypt and Great Britain eventually becoming battle veterans and taking part in the Battle of Britain flying for the RAF. Among them they were some aces, Trautloft, Marseille, Pettermann, Phillip, Ihlefeld. Among the Yugoslav aces was the tragic story of the fate of captain Miha Klavora. Klavora was returning from combat having run out of ammunition with two German Bf-109 trailing his fighter. He was shot down and killed near the airfield of Krušedol. By the end of the 12 day campaign almost all Bf-109's had been destroyed, either in combat, or by their crews to prevent capture. Some of them were later captured and sold to Romania. Source:Memories of Kap.Ulcar V.,Por.Lajh O.,Por.Presecnik B. All defenders of the Belgrade 1941.By the end of the war, 17 ex-Luftwaffe and Air Force of the Independent State of Croatia Bf 109s were found by the Yugoslav Partisans on Yugoslav territory.[142] These were stored until 1949 while more were acquired from Bulgaria. The new Yugoslav Air Force used a mix of G-2, G-6, G-10 and G-12 aircraft until mid-1952.
[edit] Developments after World War II
[edit] Czechoslovak production
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 the inferior Junkers Jumo 211F engine, which resulted in an aircraft with remarkably poor handling characteristics and a tendency to crash during landings. As noted above, Czech pilots who had previously flown Spitfires for the RAF nicknamed the aircraft Mezek ("Mule").Several of the S-199s were sold to Israel, forming the basis of the nascent Israeli Air Force.[143] These aircraft were used by Israel in its War of Independence till the end of 1948 under the Hebrew designation Sakin ("knife"), some flying in combat against Egyptian Spitfires.[144] It was replaced by a mixture of P-51 Mustang and Spitfires.
[edit] Spanish production
In Spain, two versions of the Bf 109G-2, the Hispano Aviacion Ha 1112 "Tripala" and "Buchon",[145] were built under license, 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 (rather unconvincingly, given their very distinctive air intakes) as Emils and Gustavs in Battle of Britain and Tuskegee Airmen, respectively. These modifications were carried out in the Hispano Aviacion factory in Seville. Germany had agreed to let Spain have 25 un-assembled Bf 109G-2s to help familiarize the Spanish with the Messerschmitt plane. The wings and airframes arrived but not the engines, so the Spanish installed the French Hispano-Suiza engine and later a Rolls-Royce Merlin. The Ha 1112 was produced until 1958.[edit] The end of the Bf 109 era
The original Bf 109, produced before 1945, remained in service for many years 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 March 1954. Hungarian 109s, conversely, were destroyed in Germany by their own crews on 6 May 1945. The Spanish Hispanos, however, flew longer. Some were still in service into the late 1960s. 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 their Bf 109Gs well into the 1950s.Download Papercraft Model : Click Here
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