Beyond-armour effect

Beyond-Armour Effect is a term coined by Försvarets Fabriksverk (FFV),[1] a semi-governmental Swedish defense firm, while developing the AT4. From the 1980s this phrase was used in its brochures, press releases, weapon instruction manuals and other documentation to denote the post-penetration effect of the AT4's HEAT anti-armour warhead against the interior and occupants of armoured vehicles.

The phrase now has become more or less standard in modern military terminology.[2][3]

History

During World War II, man-portable antitank weapons using shaped charge warheads, more commonly known today as HEAT projectiles, came into widespread use with almost all armies. These warheads have the advantage of not being affected by the projectile's velocity. They penetrate armour by an explosive charge fitted in a liner in the shape of a cone or, more precisely, an ogive. The liner often is made of a soft metal, such as copper. Detonation of this shaped charge turns it into a highly focused stream moving forward at extreme speeds. These warheads also have the same effect as medium and high velocity solid shot armour piercing projectiles: spalling on the interior of the armoured vehicle's armoured plate.[4]

A problem with shaped charge warheads is that if the ogive shaped liner is deep, it will have more penetration, that results in a smaller hole, that is less effective inside the armoured vehicle. Research on shaped charge warheads has shown a hole the size of a large coin on the outside of a tank turret, but an inside hole the diameter of pencil lead. If, on the other hand, the ogive is shallow, it will have less penetration, but cause a larger hole on the inside which will result in a massive spalling.[5]

In 1954, during the siege of Dien Bien Phu, France had dismantled and flown in a number of M-24 Chaffee light tanks. Their thickest armor was only 25.4 mm. The Viet Minh's main infantry antitank weapon was the old World War Two U.S. 2.36-inch bazooka, captured from Nationalist Chinese forces and supplied by Communist China. During the siege the French launched counterattacks using the M-24 in support of their infantry. One Chaffee took seven hits from 2.36-inch bazookas and still continued to fight, demonstrating that portable rocket launchers were hardly a flawless tank-killer.[6]

Other examples became evident during the Vietnam War. The North Vietnamese and their allied forces in South Vietnam were equipped with two types of light anti-armour weapons. One was the 1950s era B-40, which was a Chinese manufactured version of the Russian RPG-2, and the other was the newer RPG-7. The RPG-2 had a shallow cone and the RPG-7 a deep cone. The B-40 had a maximum penetration against armour of approximately 150 mm while the RPG-7 penetration was more than double that of the B-40. But to the surprise of the North Vietnamese, the B-40, while not effective against heavy tanks, was far more effective than the RPG-7 in killing or wounding the occupants of light armoured vehicles, and in igniting the ammunition storage or the vehicle's fuel, including the more modern M113 APC which U.S. and South Vietnamese forces at that time operated in large numbers. In addition, the B-40 proved more effective than the RPG-7 against non-armoured targets, like the bunkers at fire base camps. There are many stories from U.S. Vietnam veterans of the enemy attacking or ambushing with the dreaded B-40.[7] The U.S. Army also discovered that in combat, with rare exceptions, more than one hit by the M72 LAW rocket was required to disable or kill the North Vietnamese PT-76 light tank.[8]

Development

The combat record of light anti-armour weapons was studied by the engineers at FFV working on a replacement for the Pansarskott m/68 in the late 1970s. The result was the AT4 with a HEAT warhead that had, as the early AT4 brochures stated, a "special beyond-armour effect". The designers of the AT4's warhead intended that one hit would cause massive damage to both the occupants and the interior of the targeted vehicle. FFV has said very little about the design of the AT4's warhead, being willing only to describe its effects. Defense journalists and military experts have speculated on the warhead's design. A cutaway photo of the AT4's projectile gave clues. Instead of the standard cone shape liner used by other HEAT warheads, the AT4 has a unique trumpet-shaped liner.[9] Trumpet-shaped liners are believed to be more effective in resisting the counter-blast of reactive armour tiles, that explode and disrupt the HEAT warhead's particle stream. There has been speculation that the liner in the AT4's HEAT warhead is constructed of a special aluminum alloy. Others have stated it is primarily a copper liner with a secondary liner of aluminum bonded to the back of the copper liner. Another clue to the effectiveness of the AT4 is the presence of a "focus ring" to concentrate the blast. All public statements to 1984 on the subject are speculative.[10] Tests conducted by the U.S. Army on the AT4 confirmed that the claims made by FFV regarding the AT4's devastating post-penetration effect were substantially correct.[11]

External images
Test Photos of AT4's Beyond-armour effect
AT4 launcher and HEAT projectile
Cutaway of complete AT HEAT warhead - ie note unique trumpet shape of liner and focus ring in front of liner
Rear view of obsolete APC hit by AT4 HEAT projectile showing beyond-armour effect
Top view of obsolete APC hit by AT4 HEAT projectile showing beyond-armour effect

Description

As described by FFV in their first AT4 brochure in 1983,[12] the beyond-armour effect had five distinctive characteristics upon penetration of an armoured vehicle:

FFV claims that besides the effect of the massive spalling and fragmentation on the occupants of the armoured vehicle, which is standard for all HEAT warheads to a degree, the massive overpressure and intense heat will cause ammunition and more importantly the armoured vehicle's diesel fuel[13] to ignite. The intense light effect will blind any occupants for at least seven minutes, in addition to the obscuring effect of the dense smoke created by the AT4's HEAT warhead.[14]

References and notes

  1. FFV is now part of Saab Bofors Dynamics
  2. Hewish, Mark "FFV's Lightweight AT4, first of a new family of Swedish anti-armour weapons", International Defense Review, 5/1982, p. 70
  3. Not to be confused with Behind-the-armor effect or After-armour effect which is a term sometimes used to describe the effects of armour piercing shells fired by tanks, antitank cannons and naval warships that have a small high explosive charge in the rear of the projectile that explodes after penetrating the armour plating
  4. The second being solid shot AP projectiles impacting other items inside the armour vehicle and a massive transfer of kinetic energy to the object(s) impacted
  5. A rule of thumb for infantry antitank weapons is that if a HEAT warhead has to use more than two-thirds of its official penetration capability, it will have less effect on the interior of the vehicle.
  6. John Keegan, "Dien Bien Phu", page 110, Ballantine Books, 1974
  7. John Weeks "Small Arms Profiles #21 - Recoilless Anti-Tank Weapons", Profile Publications, 1973
  8. William R. Phillips, Night of the Silver Stars, pg 80, Naval Institute Press, 1997
  9. Trumpet liners for HEAT warheads were first developed by the Swiss for their U.S. made M47 Dragon wire guided antitank missiles
  10. Staff editors, "Tank Killers", SOF's Combat Weapons, page 46, Fall/1985
  11. D. Kyle, Armed Forces Journal International, November 1983, "Viper Dead, Army Picks AT-4 Antitank Missile", page 21
  12. FFV Ordnance, Brochure FFV A 1204-1911 E
  13. Diesel fuel has a very high flash point and is hard to ignite by a HEAT warhead. On some armoured vehicles, the diesel fuel cells are used as additional protection behind the main armour plating, for example, the Israeli Merkava main battle tank
  14. Hewish Mark, "FFV's Lightweight AT4, first of a new family of Swedish anti-armour weapons", International Defense Review, 5/1982, p. 70
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.