The Type 98 50 mm mortar was a Japanese

smooth-bore A smoothbore weapon is one that has a barrel without rifling. Smoothbores range from handheld firearms to powerful tank guns and large artillery mortars. History Early firearms had smoothly bored barrels that fired projectiles without signi ...

muzzle-loading A muzzleloader is any firearm into which the projectile and the propellant charge is loaded from the muzzle of the gun (i.e., from the forward, open end of the gun's barrel). This is distinct from the modern (higher tech and harder to make) design ...

weapon of the mid 20th century. The Type 98 designation was given to this weapon because it was accepted in the year 2598 of the

Japanese calendar Japanese calendar types have included a range of official and unofficial systems. At present, Japan uses the Gregorian calendar together with year designations stating the year of the reign of the current Emperor. The written form starts with t ...

(1938)War Department Special Series No 30 ''Japanese Mortars and Grenade Dischargers'' 1945

Design

The Type 98 50 mm mortar could be identified by the rectangular, sectionalized base plate, the fixed position of the bipod, the V slots painted white and located at 12 o'clock on both the barrel collar, and the projection of the muzzle hoop and the marking on the outside of the container in which the weapon is packed. (This marking, which read "Kyuhachi Shiki Totekiki" from right to left, meant "98 Type discharger.") The propelling charge consisted of black-powder increments packed in small silk bags. Each increment was approximately 3.75 inches long and 1.25 inches in diameter. A pull-type

friction primer A friction primer is a device to initiate the firing of muzzle-loading cannon. Each friction primer consists of a copper tube filled with gunpowder. The tube fits into the cannon touch hole burying its lower end in the gunpowder chamber. The top end ...

, 0.88 inch in length, equipped with a loop

lanyard A lanyard is a cord, length of webbing, or strap that may serve any of various functions, which include a means of attachment, restraint, retrieval, and activation and deactivation. A lanyard is also a piece of rigging used to secure or lower ...

, was designed to fit into the primer seat, or

touch hole A touch hole, also called a vent, is a small hole at the rear (breech) portion of the barrel of a muzzleloading gun or cannon. The hole provides external access of an ignition spark (fire), spark into the breech chamber of the barrel (where the ...

. The mortar consisted of three main parts: the base plate, the bipod, and the barrel. It had a fixed elevation of about 40 degrees. Limited provision was made for traverse. At the base of the tube was an offset primer seat. Two links, one on each side, extended from the barrel collar. A range slide, graduated from 0 to 60, could be clamped to the muzzle of the mortar.

Firing procedure

To use the weapon, the loader would first insert one or more powder increments in the muzzle, then place the stick of the stick bomb in the tube. To aim, the graduated range slide would be adjusted to the desired distance, which regulated the length of the stick extending into the barrel of the mortar – the more the stick extended into the barrel, the greater the range. (This is similar to aiming the older Type 89 50mm grenade discharger.) To traverse, the mortarman would loosen the two wing nuts that secured the bipod and swing the bipod feet around the area in front of the base plate. To arm the explosive charge, two friction-type pull igniters were inserted in the holes provided in the base, and each igniter was connected by cord to one of the two links extending one each side from the barrel collar of the mortar. A pull-type friction primer was inserted in the primer seat, which was on the side of the barrel near the base. To fire, the mortarman would pull a loop lanyard attached to the friction primer.

Maintenance

A cleaning brush which was attached to the underside of the carrying box cover. The mortar was easy to disassemble, by unscrew the thumb screws and removing the bipod feet from the traversing plate, then removing the barrel assembly ball out of the socket in the base plate. Finally, the collar which attaches the bipod to the barrel was removed.

Ammunition

The Type 98 was able to fire at least three different types of projectiles: a finned

Bangalore Torpedo A Bangalore torpedo is an explosive charge placed within one or several connected tubes. It is used by combat engineers to clear obstacles that would otherwise require them to approach directly, possibly under fire. It is sometimes colloquially ...

and two kinds of stick bombs. The stick bombs were composed of a diameter hardwood stick that fitted into the barrel of the launcher and was reinforced with a metal cap at the bottom to withstand the stress of firing. The other end of the stick fitted into a flange on the bottom of a rectangular head made from sheet steel which was fastened with nails or screws. The head was filled with either a rectangular block of

picric acid Picric acid is an organic compound with the formula (O2N)3C6H2OH. Its IUPAC name is 2,4,6-trinitrophenol (TNP). The name "picric" comes from el, πικρός (''pikros''), meaning "bitter", due to its bitter taste. It is one of the most acidic ...

or with

black powder Gunpowder, also commonly known as black powder to distinguish it from modern smokeless powder, is the earliest known chemical explosive. It consists of a mixture of sulfur, carbon (in the form of charcoal) and potassium nitrate (saltpeter). Th ...

. Two friction igniters would be fitted into holes in the base of the stick bomb and the cords for these fastened to either side of the launcher. When the mortar was fired, the friction igniters were lit and a black-powder

delay train Delay composition, also called delay charge or delay train, is a pyrotechnic composition, a sort of pyrotechnic initiator, a mixture of oxidizer and fuel that burns in a slow, constant rate that should not be significantly dependent on temperature a ...

started giving a 7 second delay. File:50 mm Bangalore Torpedo.jpg, 50 mm Bangalore Torpedo. File:50 mm stick mortars.jpg, 50 mm Stick Bombs.

References

Notes

Bibliography

* US War Department Special Series No. 19 ''Japanese Infantry Weapons'' December 1943 * US War Department Special Series No 30 ''Japanese Mortars and Grenade Dischargers'' 1945 * US War Department TM-E 30-480 ''Handbook on Japanese Military Forces'' 1 October 1944

External links

{{Use dmy dates, date=June 2017 9 World War II infantry weapons of Japan Infantry mortars of Japan Military equipment introduced in the 1930s