The GC-45 (Gun, Canada, 45-calibre) is a 155 mm howitzer designed by Gerald Bull's Space Research Corporation (SRC) in the 1970s. Versions were produced by a number of companies during the 1980s, notably in Austria and South Africa.

The most publicized use of the design was in Iraq, where the GHN-45 variant used by some Iraqi artillery units had a longer range than any coalition cannon systems. This initially caused considerable worry on the part of the allied forces in the Persian Gulf War.

Design history

The GC-45's general design followed several decades of work by Bull with fin-stabilized artillery shells, starting at the Canadian Armament Research and Development Establishment (CARDE) and later at Project HARP. In these efforts accuracy was not a huge concern, the objective was muzzle velocity, and the test articles were finned darts representing missiles, a low-cost alternative to wind tunnels. Yet with the removal of the rifling and the soft-metal driving band on the shell itself, the shell could be designed purely for ballistics, as opposed to having the external constraint of the driving band. A system combining some sort of rifling for accuracy without a driving band would result in a longer-range weapon. However, such a design was never achieved.

After years of research at his Quebec firing range, Bull could never settle on to a solution. The resulting Extended Range, Full Bore (ERFB) ammunition was key to SRC's designs: a "pointy" looking shell with much lower drag at supersonic speeds. For longer range applications he added a base bleed system (invented in Sweden) that could be screwed onto the standard shell, as well as an even longer-ranged system with a rocket booster.

The gun designed to fire it had a chamber, a 45-calibre rifled barrel with 1/20 right hand twist fitted with a conventional muzzle brake. Its breech was a conventional screw with interrupted thread.

Key performance data, from the Firing Table are:

  • ERFB-BB shell, weight , M11 Zone 10 muzzle velocity , QE 898 mils, time of flight 112 s, range . Probable error in range , in line .
  • ERFB shell, weight , M11 Zone 10 muzzle velocity , QE 881 mils, time of flight 99 s, range . Probable error in range , in line .
  • HE M107 shell, weight , M119 Zone 8 muzzle velocity , QE 764 mils, time of flight 65 s, range . Probable error in range , in line .

The dispersion of the EFRB shell is more than three times that of the FH-70 field howitzer at its maximum range of only 5 km less, and is twice as great as FH-70s at . Its maximum range with the M107 projectile is the same as any 39 calibre 155-mm gun and its dispersion about the same. (The "dispersion" figure means that 50% of shells will fall up to the stated distance either side of the mean point of impact, but 100% will fall within 4 times the probable error either side.) Dispersion of this magnitude significantly reduces the tactical value of the equipment.

In 1977, Bull's work put him in touch with (what is today) the Denel SOC Ltd company of South Africa. Denel designed a new mobile mounting that was able to handle the increased recoil. It used a sole-plate to lift the carriage to take the four wheels off the ground. The chassis had the option of being powered by a small diesel engine acting as an auxiliary power unit, driving hydraulics that could set up the gun in two minutes, and move it short distances. This feature had previously been included in the 1960s design FH-70 carriage by Vickers. Bull, meanwhile, started production of $30 million worth of rounds, shipping them via Spain to avoid the international arms embargo against South Africa.

At first, the U.S. chose to overlook Bull's actions and, according to him, the Central Intelligence Agency actively mediated the deal between Space Research and the South Africans. However, when the Carter administration joined the international efforts to sanction South Africa's apartheid government, Bull was arrested by U.S. Customs agents in 1980. The investigation did not go far, and active work on the case was ended by direct intervention of the White House.

Once out of prison, Bull was soon contacted by China. The Chinese People's Liberation Army also used the Noricum version, producing it as the PLL01, which entered service in 1987. Iran and Iraq were under arms embargo at the time, so the guns were shipped to Jordan, and from there to Iraq. These sales led to the "Noricum affair" in 1990, when eighteen of Noricum's managers were placed on trial for illegal arms sales. A further 100 guns were manufactured in South Africa. Bull and Saddam Hussein became partners in a number of future ventures. These ventures are generally believed to be the cause of Bull's assassination, for which the Israeli Mossad or Iranian agencies are the prime suspects.

During the Gulf War, however, the GHN-45s proved less effective than anticipated by either side. Air strikes had disrupted the Iraqi command and control facilities, and because most of their gun tractors had been withdrawn to serve with logistics units in an attempt to re-supply the front line troops, they were unable to withdraw when under fire. Immobile and unsupported, the majority of the guns were destroyed at their positions either by air strikes or Multiple Launch Rocket Systems (MLRS) counter-battery fire.

Bull continued work on the GC-45, producing a much more practical version known as the FGH-155. In addition to a number of detail changes and deeper rifling, the FGH-155 allowed standard M107 ammunition to be fired using a plastic adaptor ring.

See also

  • List of artillery
  • Bharat-52

References

  • Jane's Defence info on GC-45
  • A general survey of recent artillery developments