W48 Explained

W48
Origin:United States
Type:Nuclear artillery
Is Explosive:yes
Is Ranged:yes
Service:1963–1992
Used By:United States Army
Weight:120lb
Length:34inch
Range:14000m (46,000feet)
Yield:0.1ktTNT
Diameter:155mm

The W48 was an American nuclear artillery shell, capable of being fired from any standard 155mm howitzer. A tactical nuclear weapon, it was manufactured starting in 1963, and all units were retired in 1992. It was known as the XM454 AFAP (artillery fired atomic projectile) in US service.

The weapon was 34inch long and weighed 120lb, and was produced in two versions; the Mod 0 and Mod 1. Declassified British document give the yield of the W48 as 100tTNT, making it one of the smallest nuclear weapons ever developed by the US.[1]

History

The history of the W48 began in April 1954 when the US Army expressed interest in a small low-yield nuclear projectile. The initial development was the W33 8inch gun-type projectile but the Army was interested in an improved or an even smaller diameter weapon.[2] A study was commissioned to explore the development of a small-diameter implosion type artillery shell. The technology at this time was not sufficiently advanced to develop such a weapon but significant progress was made by the University of California Radiation Laboratory (UCRL) over the next twelve months. A further study of an implosion 8inch weapon was also commissioned that led to initial work on the XW48 focused on the 8inch design, leading to the cancellation of the XW32 240mm shell in favour of the WX48 in May 1955.[2] [3] Although the details of the study are classified, the results were positive enough that by September 1956 that emphasis moved to developing a 155 mm shell.[3]

The draft military characteristics noted that the shell would afford divisional commanders the ability to provide close nuclear fire support and enable the attack of deep targets not appropriately reached by other nuclear weapons available to them. The shell could be fired from sea level to 10000feet to strike target from sea level to 50000feet in altitude and the weapon would have a range of 15000m (49,000feet).[3]

In May 1957 Sandia stated that the 155 mm implosion-type projectile would require considerable development work and that the success of the program was not assured. Some of the issues cited included the resistance of beryllium to firing shock and issues with the strength of high-explosives and the nuclear assembly under setback acceleration. New and extremely rugged components would need development and they estimated that at least three years would be required for development.[3]

As the Atomic Energy Commission was not equipped to study setback accelerations on shells, research into this matter was performed by the military. This research determined that the weapon would need to withstand angular accelerations of 166,000 rad/s, spins of 2,500 to 18,000 revolutions per minute and setback accelerations of 9000g-force. Picatinny Arsenal suggested that the weapon use a toroidal polystyrene capacitor. This capacitor was thought to be the weakest link in the assembly and would have to remain charged for 4 years in storage.[3]

The Army informed Sandia in July 1958 that due to the technical challenges of the 155mm shell that a 175mm shell be explored as well but that work on the 155 mm design continue. In early 1959 the Army considered cancelling the XW48 but in April decided upon review to continue the program.[3]

In May 1959, Sandia presented the XW48 firing set to the Oak Committee. The design included a ferromagnetic transducer, and formed a cylinder 3.5inch wide and 1.7inch high. Tests of the firing set had been successful and most of the design problems had been solved. By August the length of the projectile had increased 2inch to improve the shell's ballistic characteristics and the weight increased to 120lb which reduced the range to 14000m (46,000feet).[3]

In January 1960 the Defense Atomic Support Agency wrote to Sandia indicating the weapon met the desired military characteristics with some exceptions. These exceptions remain classified except for the statement that a higher yield was still desired. However in May the Military Liaison Committee amended the military Characteristics requirements to make the weapon compatible with the T248 howitzer in addition to the M1A1. UCRL and Sandia stated this was not possible to confirm without further testing. Tests were subsequently performed at Yuma Proving Ground generating angular accelerations of 190,000 radians per second per second and setback accelerations of 12000g-force. No damage to weapon components was detected.[3]

In November 1961 the Army nomenclature of the weapon was changed from T358 to XM454 due to security concerns. In June 1962 the requirement for surface burst preclusion was removed and in September the requirement for the shell to survive air-drop delivery from helicopters was added. At this time full-scale testing of warhead components fired from howitzers began. First production date slipped from June 1962 to October, then to March 1963.[3]

First production of the W48 Mod 0 occurred in October 1963. The maximum range of the weapon was 14000m (46,000feet) and the minimum fuze-setting range was 1650m (5,410feet). The final weapon was 34inch long and weighed 120lb.[3] The weapon was internally initiated.[4]

Later a Mod 1 variant was produced. Only 135 Mod 0 weapons were produced out of a total production run of 1060 weapons and these weapons were retired by 1969. The Mod 1 weapons were retired in 1992.[5]

Replacement

The W82 was intended to replace the W48 but was cancelled in 1990.[5]

See also

External links

Notes and References

  1. UK Ministry of Defence. Tactical Nuclear Weapons. 1971-1972. TNA DEFE 11/470 E30.
  2. May 1967 . History of Gun-Type Artillery-Fired Atomic Projectiles Mks 9, 19, 23, 32, and 33 Shells (U) SC-M-67-659 . Sandia National Labs . 2021-03-31 . 2020-11-10 . https://web.archive.org/web/20201110020501/https://osf.io/5k9mv/ . live .
  3. January 1968 . History of the Mk48 Shell (U) SC-M-57-680 . Sandia National Labs . 2021-03-29 . 2021-06-02 . https://web.archive.org/web/20210602220341/https://osf.io/wsdxr/ . live .
  4. September 1990 . Sandia Weapon Review: Nuclear Weapon Characteristics Handbook . Sandia National Labs . 62 . SAND90-1238 . .
  5. Web site: Complete List of All U.S. Nuclear Weapons . nuclearweaponarchive.org . 18 November 2020.