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| MG FF | |
|---|---|
 A restored MG FF cannon | |
| Type | Aircraft Cannon |
| Place of origin | Nazi Germany |
| Service history | |
| Wars | World War II |
| Production history | |
| Manufacturer | Ikaria |
| Specifications | |
| Mass | 26.3 kg (58 lb) |
| Length | 1,337 mm (52.6 in) |
| Barrel length | 822 mm (32.4 in) |
| Shell | 20×80mm RB |
| Caliber | 20 mm |
| Action | API blowback |
| Rate of fire | 520-540 rpm |
| Muzzle velocity | 585, 600 or 700 m/s |
| Feed system | Drum 30,45,60,90 rounds |
TheMG FF was a drum-fed,blowback-operated, 20 mm aircraftautocannon, developed in 1936 byIkaria Werke Berlin of Germany. It was a derivative of the SwissOerlikon FF F cannon (itsFF suffix indicatingFlügel Fest, for a fixed-mount, wing location from the Swiss original), with the Oerlikon FF design itself a development of the Imperial GermanWorld War I Becker 20 mm cannon, and was designed to be used in space-limited, fixed mountings such as inside aircraft wings, although it saw use as both an offensive and a defensive weapon, in both fixed and flexible format. It saw widespread use in those roles by the GermanLuftwaffe, particularly during the early stages ofWorld War II, although from 1941 onwards it was gradually replaced by theMauser firm's 20 mmMG 151/20, which had both a higherrate of fire andmuzzle velocity.
One major disadvantage of the MG FF cannon was its extremely low ammunition count. One cannon only carried 90 bullets, and these were fired very quickly.
MG FF stands forMaschinengewehr Flügel Fest, which translates into "machine gun, wing, fixed"; this reflects the fact that in Luftwaffe practice guns of 20 mm or less were designated as "machine guns" (maschinengewehr) as opposed to larger "machine cannons", or autocannons, which were "MK", formaschinenkanone. The "wing, fixed" part reflects the fact that the primary motivation behind its design was to create a 20 mm caliber weapon that was compact and light enough to be mounted in the wings of aircraft, especially fighters.
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Compared to rival designs, such as theHispano-Suiza HS.404 – which had been developed from the larger Oerlikon FF S – the MG FF had some disadvantages, such as lowrate of fire and lowmuzzle velocity, as well as limited ammunition storage in its drums. On the other hand, it was much lighter and shorter. Even with its compact size, wing installation on theMesserschmitt Bf 109 andFocke-Wulf Fw 190 fighters was not easy, as the drum required substantial space, and as a consequence the ammunition storage was initially reduced to 60 shells per drum. An ammunition drum of 90-round nominal capacity was developed for the Fw 190 A-5, and retrofitted to some earlier variants. There were also experiments with belt feedings.
The MG FF was adapted to fire a new type of high-capacity,high-explosive "mine shell" that featured a projectile with thinner walls that allowed increased explosive charge. This projectile was lighter and thus had a higher muzzle velocity than the previous ammunition; this also entailed that it generated less recoil than earlier projectiles requiring a modification of the recoil mechanism. With this modification it could fire the new mine shell, but accidentally using the heavier MG FF ammo could damage the gun. In the interest of avoiding such errors, the weapon was redesignated theMG FF/M. It was introduced with the Bf 109 E-4 and Bf 110 C-4 in summer 1940.
The MG FF fired a 134 g projectile with a muzzle velocity of some 600 m/s and a rate of fire of about 530 rounds per minute. The MG FF/M fired a 90 g HE/M (high explosive mine shell) projectile with a muzzle velocity of c. 700 m/s and a rate of fire of c. 540 rounds per minute. AP, HE and incendiary projectiles were also available (115 to 117 g projectiles, 585 m/s, c. 520 rpm) because the mine-shot was not capable of holding incendiary or tracer parts.There were also different types of high-explosive mine shell fillings with either standardPentrit A (PETN +Aluminium), a mixture calledHA 41 (RDX +Aluminium powder)(the latter had a 40 percent increased high explosive and incendiary effect).[1]
The MG FF and FF/M saw widespread use in fighters such as the Bf 109 E-3 to F-1,Bf 110 C to F, and Fw 190 A-1 to A-5. Early variants of the Fw 190 (A-1 to A-5) were typically fitted with an inboard pair of MG 151 and an outboard pair of MG FF/M, although the MG FF/M were sometimes removed in the field in order to save weight. The MG FF/M fed from a 60-round drum that required an underwing bulge to fit within the wing (90 rounds in the A-5). From the A-6 onward, the MG FF/M were replaced by a pair of MG 151/20 feeding from 125 round belts, or deleted altogether. The cannon was also fitted to bombers such as theDo 217,Ju 88,He 111,Do 17, as well as many other aircraft, either as aerial defense, or more often for anti-ship and defensive fire suppression. Although the MG FF was often replaced with the 20 mmMG 151/20 from 1941 onwards, it saw a comeback in 1943 as the primarySchräge Musik gun in theBf 110 (and other) night fighters, as it fit perfectly into the rear cockpit, and muzzle velocity was less important in this application (there were also stocks of surplus guns and ammunition to be used up).
| German Designation | US Abbreviation | Projectile Weight [g] | Bursting charge [g] | Muzzle Velocity [m/s] | Description |
|---|---|---|---|---|---|
| 2 cm Sprenggranatpatrone MG.FF L'spur mit Zerleger | HEF-T | 134-136 | 3 g HE (PETN) + (blasting cap) : 0,6 g HE (PETN) + 0,28 - 0,4 g HE (Lead azide)-(Tetrazene explosive) | 600 | Nosefuze, tracer, self-destruct. |
| 2 cm Sprenggranatpatrone MG.FF L'spur mit Zerleger | HEF-T | 134-136 | 3,7 g HE (PETN) + (blasting cap) : 0,6 g HE (PETN) + 0,28 - 0,4 g HE (Lead azide)-(Tetrazene explosive) | 600 | Nosefuze, tracer, self-destruct. |
| 2 cm Sprenggranatpatrone MG.FFM L'spur mit Zerleger | HEF-T | 115-117 | 3,7 g HE (PETN) + (blasting cap) : 0,6 g HE (PETN) + 0,28 - 0,4 g HE (Lead azide)-(Tetrazene explosive) | 585 | Nosefuze, tracer, self-destruct. |
| 2 cm Brandsprenggranatpatrone (Phosphor) MG.FFM L'spur/Gl'spur mit/ohne Zerleger | HEFI-T | 115-117 | 3,6 g HE (PETN) + (blasting cap) : 0,6 g HE (PETN) + 0,28 - 0,4 g HE (Lead azide)-(Tetrazene explosive) + 0,4 g incendiary (WP) | 585 | Nosefuze, tracer, w. or w/o self-destruct. |
| 2 cm Brandsprenggranatpatrone (Elektron) MG.FFM L'spur/Gl'spur mit/ohne Zerleger | HEFI-T | 115-117 | 2,3 g HE (PETN) + (blasting cap) : 0,6 g HE (PETN) + 0,28 - 0,4 g HE (Lead azide)-(Tetrazene explosive) + 2,1 g incendiary (Elektron)(Thermite) | 585 | Nosefuze, tracer, w. or w/o self-destruct. |
| 2 cm Brandgranatpatrone MG.FFM L'spur/Gl'spur mit/ohne Zerleger | I-T | 117-119 | 6,6 - 7,3 g incendiary (BaNO3+Al+Mg) + (blasting cap) : 0,2 g HE (PETN) + 0,4 g HE (Lead azide)-(Tetrazene explosive) | 585 | Nosefuze, tracer, w. or w/o self-destruct. As soon as it hit the outer skin of the aircraft, the primer charge in thefuze head responded, shearing thefuze head away and igniting the incendiary charge in the projectile. The incendiary charge sprayed forward over at least 10 m of projectile travel. |
| 2 cm Minengeschosspatrone MG.FFM mit/ohne Zerleger | HEI (M) | 90-92 | 18,7 g HE (PETN) + (blasting cap) : 0,29 - 0,4 g HE (PETN) + 0,2 g HE (Lead azide)-(Tetrazene explosive) | 700 | Nosefuze, no tracer, w. or w/o self-destruct. |
| 2 cm Minengeschosspatrone MG.FFM mit/ohne Zerleger | HEI (M) | 92-94 | 20 g HE (PETN) + (blasting cap) : 0,29 - 0,4 g HE (PETN) + 0,2 g HE (Lead azide)-(Tetrazene explosive) | 718 | Nosefuze, no tracer, w. or w/o self-destruct. |
| 2 cm Minengeschosspatrone MG.FFM mit Zerleger | HEI (M) | 92-94 | 18,7 - 20 g HE (PETN) or 18,6 g HE (HA 41) + (blasting cap) : 0,29 - 0,4 g HE (PETN) + 0,2 g HE (Lead azide)-(Tetrazene explosive) | 695 | Nosefuze, no tracer, self-destruct. |
| 2 cm Minengeschosspatrone MG.FFM ohne Zerleger | HEI (M) | 95-97 | 18,7 - 20 g HE (PETN) or 18,6 g HE (HA 41) + (blasting cap) : 0,29 - 0,4 g HE (PETN) + 0,2 g HE (Lead azide)-(Tetrazene explosive) | 675 | Nosefuze, no tracer, no self-destruct. |
| 2 cm Panzergranatpatrone MG.FFM ohne Zerleger | AP | 117-119 | none (bakelite filling in cavity) | 585 | Nofuze, no tracer, no self-destruct. Penetration 10 mm of armour at 60-degree impact angle, 100 m range. |
| 2 cm Panzersprenggranatpatrone MG.FFM ohne Zerleger | APHEF | 117-119 | 4 g HE (PETN) + (blasting cap) : 0,3 g (Lead azide) + 0,02 g (Lead styphnate) | 585 | Nosefuze, no tracer, no self-destruct. Penetration 10 mm of armour at 60-degree impact angle, 100 m range. Detonation after 5mm armour penetration. |
| 2 cm Panzerbrandgranatpatrone (Phosphor) MG.FFM ohne Zerleger | API | 115-117 | 3,6 g incendiary (WP) + 8,6 - 9,1 g incendiary capsule | 585 | Nofuze, no tracer, no self-destruct. Penetration 7–10 mm to 16–22 mm of armour at 60 to 90-degree impact angle, 100 m range. When the projectile broke up, the phosphorus remained in effective parts in the target and burned for a long time.The prerequisite for disintegration of the projectile were sufficiently resistant targets, namely armour plates ofat least 3 mm at 45°,at least 4.5 mm at 60°,at least 7 mm at 75°,at least 15 mm at 90°,impact angle; also aircraft components (strong spars and struts). The incendiary effect against protected containers is achieved at a distance of 20–150 cm after projectile fragmentation. |
| 2 cm Panzerbrandgranatpatrone (Elektron) MG.FFM ohne Zerleger | API | 117-119 | 6,2 g incendiary (Elektron)(Thermite) | 575 | Optimized for strafing merchant ships and light combat vehicles. Nosefuze, no tracer, self-destruct. Penetration 15 mm of steel at 65-degree impact angle, 100 m range. Fuze functions after penetration of at least 4 mm shipbuilding steel, incendiary effect due to ejection of the burning elektron shell. |