"mine-
mortar" () during
World War I. Dedicated mine shells originate in
Europe. The origin of the name "mine shell" is unknown but
Italy was using the name by 1884 (). Mine shells were used in a lot of different types of high caliber
cannons,
howitzers, and
mortars on both land and on water around the turn of the century, before seeing a decline after
World War I. (See the article
Minenwerfer for the use of mine shells in mortars during World War I.) The use of
rebar-reinforced fortifications during World War I probably made the shell obsolete as its effect on fortifications was negated by the rebar.
German use of mine shells in World War II During
World War II, mine shells came into use originally by Germany for small-caliber (initially 20 mm)
automatic weapons, both to arm the Luftwaffe's fighter aircraft and for
flak. This was an innovation, as prior to this mine shells had only been constructed in large calibers. Larger shells were usually produced by casting, smaller calibers by drilling the cavity for fuse and explosives into a solid steel shot, and neither process was effective at making small projectiles with walls that were sufficiently thin yet strong enough to work as a mine shell. While small thick-walled shells fired from automatic guns performed well against ground targets, they were more limited for use against lightly-armoured aircraft.
Development In the late 1930s, the Germans began to pay attention to these shortcomings during the trials of the 20 mm
MG FF cannon. Its conventional high-explosive rounds were judged unsatisfactory in the anti-aircraft role. As a result of these trials, the German air ministry, the
Reichsluftfahrtministerium, or RLM for short, ordered the development of mine shells for the 20 mm MG FF cannon in 1937. To make such shells in caliber, German ordnance engineers had to try new methods of construction; they developed a round made from high-quality
drawing steel, manufactured in the same way as cartridge cases. These new 20 mm mine shells were first used against the RAF in 1940, and proved highly successful. Even when the British and later, to a limited extent the Americans equipped their fighters with autocannon, they always used conventional ammunition. The difference in payloads between these rounds and the Luftwaffe's mine shells was significant. Considering the high-explosive rounds alone as an example: the 20 mm mine shells used in MG FF/M cannons (and later in the MG 151/20) both had a HE filling (compared to the of the original MG-FF), while British and American autocannon shells of the same calibre, markedly heavier, could carry only . One problem with the new ammunition was its light weight; the new 20 mm mine shells produced insufficient recoil to operate the standard 20 mm MG FF cannon, requiring a modification of the recoil mechanism. The new cannon could not safely fire standard rounds and was renamed 20 mm MG FF/M, with
M for
Minengeschoß appended, a new name implying the need for different ammunition.
Deployment -4, the first Bf 109 deployed with the 20 mm
MG FF/M "mine shell capable" cannon. Germany first used Minengeschoß ammunition during the
Battle of Britain when
MG FF/M armed
Bf 109E's and
Bf 110C's flew missions over from mainland Europe to Britain. Although the shells themselves proved deadly, the guns had a poor rate of fire, relatively slow muzzle velocity, and an inadequate magazine ammunition feed, and were soon replaced by the belt-fed
MG 151. This new type was originally introduced as a Minengeschoß-firing 15 mm heavy machine gun, but it was then realised that the earlier cannon-sized mine shells were more effective, and so a new larger cartridge (20x82mm) was created for the weapon. The adapted gun, designated MG 151/20, became the Luftwaffe's standard 20 mm autocannon until the end of the war, and with its high
fire rate coupled with good
ballistics and high-explosives payload for its caliber was overall among the best aircraft armament of the conflict. . The sectioned round is a mine shell (
Minengeschoss). As the possibilities of this new application for mine shells became better understood, the Luftwaffe found they had created a potential game-changer as the recoil/velocity ratio made it possible to create larger caliber guns that would have low enough recoil to be effectively mounted on conventional aircraft, while at the same time achieving useful velocities. Larger-diameter cannon shells allowed a dramatic increase in explosive payload. One such weapon was the
MK 108 which became highly militarily significant during the second half of the war, when the Allies began to mount their enormous bombing onslaught on German cities. So large was the increase in internal volume that it proved worthwhile to the Germans to refine these projectiles by making them more streamlined, sacrificing a little of this capacity, but thus partly compensating for the lower momentum characteristic of the Minengeschoß design. These streamlined mine shells for the 30 mm MK 108 were designated Ausf.C. and contained of
nitropenta (PETN) instead of the of the original blunt-nosed Ausf.A. (The Ausf.B was a training shell without explosive payload.) See below for a comparison with modern ammunition loads. Mine shells where also adopted for use in ground attack cannons such as the high-velocity 30 mm
MK 103 and others, as well as
anti-aircraft guns like the
2 cm Flak 30/38,
3.7 cm Flak 18/36/37/43 and
5 cm FlaK 41.
Further development . Towards the end of WWII the Germans started to develop several autocannons in caliber for use in
aircraft and anti-aircraft guns against allied aircraft. These included the Gerät 58 anti-aircraft gun and the
MK 112 and
MK 115 aircraft cannons. 55 mm was the smallest caliber that could shoot down a
heavy bomber with a single mine shell. Calculations and tests had found that a single hit with of
PETN or
RDX explosive mixes could effectively incapacitate a heavy bomber. It was calculated that a caliber of at least was needed to deliver this load. Germany already manufactured mine shells in caliber for guns such as the 5 cm FlaK 41, but these only had an explosive charge capacity of . In the end, no 55 mm mine shells seem to have been deployed by Germany during World War II. The
allied bombing of Germany delayed weapons research and made production of the 55 mm weapons impossible. bomber shot down by a 55 mm R4M mine-warhead air-to-air rocket. However, the Germans did manage to deploy a 55 mm air-to-air rocket named "Rakete, 4 Kg, Minenkopf" (Rocket, 4 kg, Mine-head), or R4M for short, at the end of 1944. It was fitted with a 55 mm "high-capacity", or "mine"
warhead filled with 520 grams of the "HTA 41" (also known as "HTA 15") explosive-mixture, which consists of 40%
Hexogen (RDX), 45%
TNT and 15%
aluminium. The shell walls of the warhead were only thick. These rockets were fitted to several German aircraft at the end of the war, most notably the
Me 262 jet fighter, which used them to great effect during their limited service life. On one occasion, Me 262s armed with R4M rockets shot down 25
B-17 bombers out of a group of 425 within a very short time without any losses.
Post-war use Mk3 cannon.Left: Swedish productionRight: British production After the defeat of Germany in World War II, several countries started using mine shells for their own post-war aircraft and anti-aircraft armament; for example the "high-explosive" shells of Britain's
ADEN cannon and the French
DEFA 540 were effectively clones of German wartime equivalents. The guns themselves were developments of the German
Mauser MK 213. File:30mm ADEN Mk 4 cannon-IMG 6280-white (cropped).jpg|British
30 mm ADEN cannon, developed from the German Mauser MG 213 to fire mine shells. File:Canon DEFA MG 1359.jpg|French
30 mm DEFA cannon, , developed from the German Mauser MG 213 to fire mine shells. Some WW2 mine shell payloads were significantly larger than modern equivalents. The payload PGU-13/B HEI round for the
GAU-8/A Avenger gun of the
A-10 Warthog and the payload 30 mm OFZ shell of Russian
GSh-30-1 and
GSh-30-6 cannons are lower than the payload of German WW2 mine shells of the same caliber. Sweden, having experience with the shell type from earlier, developed several different mine shells in different calibers after the war, including mine shell variants for the 20 x 110 Hispano cartridge and the 57 x 230R Bofors cartridge. Mine shells are still used today in autocannons such as the
Mauser BK-27, but not by artillery. == Guns adapted to fire mine shells ==