Elektron has been used in
Zeppelin airships, aircraft, and motor racing applications.
Incendiary bombs using elektron were developed towards the end of the First World War by both Germany (the B-1E
Elektronbrandbombe or
Stabbrandbombe) and the UK. Although neither side used this type of bomb operationally during the conflict,
Erich Ludendorff mentions in his memoirs a plan to bomb Paris with a new type of incendiary bomb with the aim of overwhelming the city's fire services; this planned raid was also reported in
Le Figaro on 21 December 1918. The lightness of elektron meant that a large aeroplane like one of the
Riesenflugzeug heavy bombers could carry hundreds of bomblets. In 1924, magnesium alloys were used in automobile pistons diecast by
Elektronmetall GmbH in
Bad Cannstatt, another IG Farben company formed out of
Versuchsbau Hellmuth Hirth. An advertisement in the German trade paper
Flugsport in 1939 claimed that the record-breaking
Arado Ar 79 aircraft contained 25% by weight of elektron, mostly in the
Hirth HM 504 A2 4-cylinder inline engine whose crankcase was made of Elektron. The main engine bearers of the
Messerschmitt Bf 109 and the
Junkers Ju 87 were made from forged elektron. The air-cooled
BMW 801 radial aero engine that powered the
Focke-Wulf Fw 190 had a fan made of magnesium alloy, very probably elektron. British and German incendiary bombs used extensively during
World War II weighed about 1 kg and consisted of an outer casing made of elektron alloy, which was filled with
thermite pellets and fitted with a fuse. The fuse ignited the thermite, which in turn ignited the magnesium casing; it burned for about 15 minutes. Trying to douse the fire with water only
intensified the reaction. It could not be extinguished and burned at such a high temperature that it could penetrate armour plate.
Siemens-Halske used elektron casings for their
Hellschreiber military teleprinter used during WW2. The die-cast casings of a number of radio sets
used by the German Army and
by the Luftwaffe made by
Lorenz and others were made of elektron. The inter-connecting modular design of these sets meant that the chassis and modules could be mass-produced from intricate moulds within tolerances of 0.1–0.15 mm. The connectors for the fuel pipes in the engine compartment of
Tiger II tanks were originally made of elektron, but they distorted when clamped and were replaced with steel ones. Japanese
San Shiki naval incendiary
anti-aircraft shells, also known as beehive shells, were intended to produce a large volume of flame which attacking aircraft would have to fly through. They had a filling of 45% elektron and 40%
barium nitrate, a powerful
oxidiser. The prototype 4-seater 1948
Planet Satellite aircraft had a
monocoque fuselage of elektron, a solid elektron keel and wings skinned in elektron, but the keel suffered from stress failures and never reached production. The bodywork of certain racing cars utilized elektron, including the
Mercedes-Benz 300 SLR that
infamously crashed in the
1955 Le Mans race, highlighting its flammability. ==See also==