Dual-Purpose Improved Conventional Munition
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A Dual-Purpose Improved Conventional Munition (DPICM) is an artillery or surface-to-surface missile warhead designed to burst into sub-munitions at an optimum altitude and distance from the desired target for dense area coverage. The sub-munitions are designed for both anti-armor and antipersonnel attack. Some sub-munitions may be designed for delayed reaction or mobility denial (mines). The air-to-surface variety of this kind of munition is better known as a cluster bomb. They are banned in some countries under the Convention on Cluster Munitions.
United States DPICM projectiles
Development work for DPICM projectiles began in the late 1950s, with the first projectile, the 105 mm M444 entering service in 1961. Its submunitions were simple bounding anti-personnel grenades (ICM). Production of the M444 ended in the early 1990s.
The first true DPICM was the 155 mm M483, produced in the 1970s. By 1975, an improved version, the M483A1, was being used. The projectile carried 88 M42/M46 grenade-like dual purpose submunitions. The 155 mm M864 projectile entered production in 1987, and featured a base bleed that enhances the range of the projectile, although it still carries the same M42/M46 grenades. The base bleed mechanism reduces the submunition count to 72. Work was budgeted in 2003 to retrofit the M42/M46 grenades with self-destruct fuses to reduce the problem of "dud" submunitions that do not initially explode but may explode thereafter upon handling.
Work on 105 mm projectiles started in the late 1990s based around the M80 submunition. The eventual results were two shells, the M915 intended for use with the M119A1 light towed howitzer and the M916 developed for the M101/M102 howitzers.
|Caliber||155 mm||155 mm||105 mm||105 mm||105 mm|
|Service date||1975||1987||1998 (?)||1998||1961
(production ended early 1990s)
|Range||? to 17 km||? to 30 km||10 km to 14 km||3 km to 11 km||? to 11.5 km|
|Load||64 × M42
24 × M46
|48 × M42
24 × M46
|42 × M80||42 × M80||18 × M39
(M444E1 used M36)
|46.5 kg||47 kg (approx)||?||?||14.97 kg|
|Length (fuzed)||937 mm||899 mm||?||?||371.9 mm|
DPICM submunitions were developed for several reasons:
- They can give a heavy, indirect-fire cannon the ability to engage area targets, with the spread compensating for their inherent inaccuracy;
- With DPICM, artillery can be used against armored and mechanized formations with greater effect, being capable of destroying armor without having to resort to ATGWs such as the Copperhead laser-guided round;
- Due to their combined spread and airburst, they are more capable against dug-in troops than conventional HE rounds.
Due to the high failure rate of DPICM munitions and accuracy of GPS guided weapons, DPICM artillery shells and missiles have fallen out of favor with the U.S. military. As a result, the large quantities of munitions bought during the Cold War were put into war reserve stockpiles. However, as of 2014 most were reaching the end of their useful life and require disposition. The warheads, which are now old and less stable, must be extracted. The shells are being refilled with explosives, recycling them for use as inexpensive training ammunition.
The U.S. Army is seeking a replacement of DPICM munitions from the Alternative Warhead Program (AWP). The AWP warhead will have equal or greater effect against materiel and personnel targets, while leaving no unexploded ordnance behind. The program is being developed by Lockheed Martin and Alliant Techsystems.
- Recycling Cold War Super Shells - Strategypage.com, January 25, 2013
- US Army seraches for cluster munitions alternatives - Dmilt.com, 6 June 2013