World War II Germany In World War II the
Luftwaffe developed a series of
unguided rocket-propelled armor-piercing bombs for use against shipping and fortifications.
United Kingdom after being hit by a
Grand Slam. striking the German,
Valentin U-boat pen. The bomb was one of a number dropped on the
bunker during post-war testing In
World War II, the British designer
Barnes Wallis, already famous for inventing the
bouncing bomb, designed two bombs that would become the conceptual predecessors of modern bunker busters: the five
tonne Tallboy and the ten tonne
Grand Slam. These were
"Earthquake" bombs—a concept he had first proposed in 1939. The designs were very aerodynamic, allowing them to exceed the speed of sound as they fell from 22,000 ft (6,700 m). The tails were designed with offset fins causing the bombs to spin as they fell. Using the same principle as a
spinning top, this enabled them to resist being deflected, thereby improving accuracy. They had casings of high grade steel, much stronger than the typical World War II bomb so that they would survive hitting a hardened surface, or penetrate deep into the ground. Though these bombs might be thought of as "bunker busters" today, the original "earthquake" theory was more complex and subtle than simply penetrating a hardened surface. The earthquake bombs were designed not to strike a target directly, but to impact beside it, penetrate under it, and create a '
camouflet', or large buried cavern, at the same time as delivering a shock wave through the target's foundations. The target then collapses into the hole, no matter how hardened it may be. The bombs had strong casings because they needed to travel through rock rather than reinforced concrete, though they could perform equally well against hardened surfaces. In an attack on the
Valentin U-Boat pens at
Farge, two Grand Slams went through the 15 ft (4.5 m) reinforced concrete hardening—equalling or exceeding the best current penetration specifications. The British
Disney bomb (officially "4500 lb [2,000 kg] Concrete piercing/Rocket Assisted Bomb", also known as the "Crab") was a World War II device designed to be used against U-boat pens and other super-hardened targets. Devised by Captain
Edward Terrell RNVR of the Admiralty's
Directorate of Miscellaneous Weapons Development, it had a streamlined hardened case and weighed about including the rocket assembly. The actual explosive content was about . For accuracy, the bombs had to be dropped precisely from a pre-determined height (usually ). They would free-fall for around 30 seconds until, at , the rockets were ignited, causing the tail section to be expelled. approximately
Mach 1.29. Post-war tests demonstrated that the bombs were able to penetrate a thick concrete roof, with the predicted (but untested) ability to penetrate of concrete. During
Operation Desert Storm (1991), there was a need for a deep penetration bomb similar to the British weapons of World War II, but none of the NATO air forces had such a weapon. As a stop-gap, some were developed over a period of 28 days, using old 8 inch (203 mm) artillery barrels as casings. These bombs weighed over two tons and carried of high explosive. They were laser-guided and were designated "Guided Bomb Unit-28 (
GBU-28)". It was proven effective for the intended role. An example of a Russian bunker buster is the
KAB-1500L-Pr. It is delivered with the
Su-24M and the
Su-34 aircraft. It is stated to be able to penetrate 10–20 m of earth or 2 m of reinforced concrete. The bomb weighs , with being the high explosive penetrating warhead. It is
laser guided and has a reported strike accuracy of
CEP. The US has a series of custom made bombs such as the
Paveway series of laser-guided bombs to penetrate hardened or deeply buried structures:
Turkey is another country known to be developing bunker busters, such as the SARB-83 and NEB-84. == Fuzing ==