Blockbuster bomb



A blockbuster bomb or cookie was one of several of the largest conventional bombs used in World War II by the Royal Air Force (RAF). The term blockbuster was originally a name coined by the press and referred to a bomb which had enough explosive power to destroy an entire street or large building through the effects of blast in conjunction with incendiary bombs.

Design
The bombs then called Blockbusters were the RAF's HC (high capacity) bombs. These bombs had especially thin casings that allowed them to contain approximately three-quarters of their weight in explosive, with a 4000 lb bomb (nominal weight) containing about 3000 lb of explosive (Amatol, RDX or Torpex). Most general-purpose bombs, termed "medium capacity'" (MC) by the RAF, contained 50% explosive by weight, the rest being made up of the fragmentation casing. Larger Blockbusters were made later in the war, from the original 4000 lb version, up to 12000 lb.

The 4000 lb High Capacity Mark I bomb – actual weight around 3,930 lb – was a welded, cylindrical shell of 0.31 in thick steel. The body of the bomb was 30 in in diameter and 88 in long. The nose of the bomb was conical and a 27 in long lightweight, empty cylindrical tail with a closed end was fitted, for a total overall length of 115 in. A T-section steel beam was welded to the inner surface of the bomb to strengthen it. Subsequent Mark II and Mark III HC bombs differed in detail; the conical nose was replaced with a domed nose and the number of fuzes was increased from one to three to guarantee detonation. The Mark IV bomb did not have the T-section beam and the Mark V and Mark VI bombs were versions manufactured in the United States. The larger 8000 lb bomb was constructed from two 4000 lb sections, of a larger 38 in diameter, that fitted together with bolts. A 12000 lb version was created by adding a third 4000 lb section and should not be confused with the 12,000lb Tallboy ground-penetrating "earthquake" bomb.

The 4000-lb high-capacity design was little more than a cylinder full of explosives: it was unaerodynamic and did not have fins. By comparison the similar American "4,000 pound LC Bomb AN-M56" bomb was aerodynamically designed as other US bombs were, with a sheet metal tailfin assembly and shaped nose and aft sections. When fitted with a conical "nose piece" and a drum tail, the 2 ST British "Blockbuster" bomb fell straight down. These bombs were designed for their blast effect, to cause damage to buildings, specifically to blow roof tiles off, so that the small 4 lb incendiary bombs could reach the building interiors. In contrast to the American AN-M56 ordnance, the cylindrical "HC"-class British-design high capacity bombs were used only by the RAF and associated Commonwealth air forces, which were the only air forces with bombers with bomb bays large enough to hold them.

In 1947 Alfred Cecil Brooks of Stourbridge was appointed a Member of the Order of the British Empire, for creating the Blockbuster, although his citation was worded "outstanding services to the King of a nature that cannot be revealed". The local newspaper referred to him as "Blockbuster Brooks".

Operational use
The first type of aircraft to carry 4,000 lb bombs operationally was the Wellington during a strike on Emden in April 1941; carriage of the bomb required the bomb beam to be removed from the bomb bay and a slot cut in the bomb doors - the bomb protruded slightly through this and, on release, simply fell out through the hole. The bomb later became part of the standard bomb load of the RAF's heavy night bombers, as well as that of the Mosquitoes of the Light Night Strike Force, whose aircraft would sometimes bomb Berlin twice in one night, flown by two different crews.

The 2,000-lb HC was used until the end of the war; use peaked in 1944 with over 16,000 dropped

The 8,000 lb and the 12,000 lb could be carried only by the Avro Lancaster which needed to be slightly modified with bulged bomb-bay doors. The first use of the 8,000 lb HC was by 15 Squadron Lancasters against Berlin on 2 December 1943. Bad weather and other factors meant their effectiveness was not noted.

The 4,000 lb "cookie" was regarded as a particularly dangerous load to carry. Due to the airflow over the detonating pistols fitted in the nose, it would often explode even if dropped in a supposedly "safe" unarmed state. The safe height above ground for dropping the "cookie" was 6000 ft; any lower and the dropping aircraft risked being damaged by the explosion's atmospheric shock wave: "We were flying at 6,000 feet which was the minimum height to drop the 4,000 pounder. We dropped it in the middle of town [Koblenz], which gave the aircraft a hell of a belt, lifted it up and blew an escape hatch from out of the top."

617 Squadron developed a technique of dropping a 1,000lb MC bomb just before a 12,000lb HC bomb; the shock wave from the 1,000lb explosion fired the pistols on the 12,000lb bomb to give an "air burst"; this technique was used successfully in attacks including the Michelin factory at Clermont-Ferrand in March 1944.

Post-war unexploded ordnance


An unusual dry period led to low river levels in the Rhine in December 2011, exposing a 4,000-lb HC bomb in the riverbed near Koblenz. A radius of 2 km around the bomb site (containing about 45,000 people) was evacuated while the bomb was defused. Another unexploded blockbuster was found in Dortmund in November 2013, requiring the evacuation of more than 20,000 people from the area. Other bombs were found and defused in Vicenza on 29 April 2001 and 25 April 2014. In 2001, defusing operations required the evacuation of 70,000 within a radius of 3 km, while in 2014 defusing operations required the evacuation of 30,000 within a radius of 2.5 km.

On 19 December 2016, a British bomb identified as a 4,000-lb HC "blockbuster" was discovered in Augsburg, Germany. It was defused on Christmas Day, requiring evacuation of more than 54,000 people within a radius of 1.5 km.

On 29 August 2017, another British HC 4000 bomb was discovered during construction work near the Goethe University in Frankfurt, requiring the evacuation of approximately 65,000 people within a radius of 1.5 km. This was the largest evacuation in Germany since the Second World War.

On 8 April 2018, an HC 4000 bomb was discovered during gardening jobs in Paderborn, near the local university, leading to the evacuation of 26,400 people while the bomb was defused.

On 20 March 2024, a MK IV Bomb was found in a construction site in Viterbo, Italy causing an evacuation of more than 30,000 people in a range of 1400m from the discover site.

2,000-lb HC
Design of a 2,000 lb to meet requirements of similar size to existing 1900-lb GP bomb was by Vickers with parachute arrangements by the RAF; this was at the same time Woolwich was designing the 4000lb bomb. Actual case construction was by Great Western Railway Company. Live tests began at start of 1941; a few were used operationally in late 1941 with parachute dropping and delay timer. The parachute requirement was dropped and from early 1942 they were used with conventional tail. Improved Mark II and Mark III (with different fuse positions) followed in 1943. Actual weight was 1,723 lb for Mark II and III with 71% charge to weight filling of 60/40 or 50/50 Amatol, RDX/TNT 60/40, or Torpex 2.

4,000-lb HC

 * Mark I: first production design
 * Mark II: three nose pistols
 * Mark III: no side pistol pockets
 * Mark IV: no stiffening beam
 * Mark V: U.S. production
 * Mark VI: U.S. production

Filling was Amatol, RDX/TNT, Minol, or Torpex. In 1943, 25,000 of these were used; this rose to 38,000 in 1944. In 1945 up to the end of the war a further 25,000 were used.

8,000-lb HC
Actual weight 7,860 lb with charge to weight ratio of 68%. Filling was 'Amatex 9' or 'Torpex 2'. Bombs were produced from 1942 to 1945.
 * Mk I
 * Mk II

12,000-lb HC

 * Mk I
 * Mk II

Charge weight ratio of 80%. Filling was Amatex or Torpex. 170 were produced in the last two years of the war.

Air mines


During The Blitz the Germans used naval mines dropped with parachutes as improvised blockbusters. Their fuse was triggered by the shock of landing, with the bomb exploding after a 17-second delay. As the bomb was not in a crater, the force of the blast would disperse laterally, causing extensive damage. The large raid on Coventry on 14–15 November 1940 included the use of 50 parachute mines, which caused extensive blast damage. The British called these devices air-mines, a calque of the German term Luftmine. These types were used also during air raids on Malta, especially on its harbour areas.