HOME
*





T-93 Mine
The T-93 is an Egyptian scatterable anti-tank mine similar in appearance to the German AT-2 scatterable mine. It can be dispensed from launchers deployed on the ground or mounted on vehicles which can hold as many as 600 mines. The mine is cylindrical with twelve spring-loaded legs folded up against the sides of its body during storage. After the mine is dispensed and strikes the ground, the legs spring open, pointing the mine upright. The mine is triggered by a magnetic fuze when an appropriate target is detected, detonating the Misznay Schardin effect warhead, which produces a self-forging fragment capable of penetrating up to 80 millimeters of armor. References * {{DEFAULTSORT:T-93 Mine Anti-tank mines ...
[...More Info...]      
[...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]  


picture info

Anti-tank Mine
An anti-tank mine (abbreviated to "AT mine") is a type of land mine designed to damage or destroy vehicles including tanks and armored fighting vehicles. Compared to anti-personnel mines, anti-tank mines typically have a much larger explosive charge, and a fuze designed to be triggered by vehicles or, in some cases, remotely or by tampering with the mine. History First World War The first anti-tank mines were improvised during the First World War as a countermeasure against the first tanks introduced by the British towards the end of the war. Initially they were nothing more than a buried high-explosive shell or mortar bomb with its fuze upright. Later, purpose-built mines were developed, including the Flachmine 17, which was simply a wooden box packed with explosives and triggered either remotely or by a pressure fuze. By the end of the war, the Germans had developed row mining techniques, and mines accounted for 15% of U.S. tank casualties during the Battle of Saint-Mih ...
[...More Info...]      
[...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]  


picture info

AT-2 Mine
The AT2 mine is a scatterable anti-tank mine developed by Dynamit Nobel. It can be scattered from artillery rockets or from mine laying systems, and is in service with the British, German and Norwegian armed forces. AT2 mines were donated to Ukraine by Germany. Description The mine is cylindrical with a hemispherical top and flat bottom. A thin aerial-like wire extends from the top of the mine, and is the S3 "scratch wire" contact fuze. Five or more metal legs (depending on the exact model) around the base of mine fold out to stand the mine upright. Additionally the mine is fitted with a small plastic parachute when it is deployed from rockets to reduce the impact when the mine lands. The mine is triggered when the scratch wire fuze drags along the bottom of a vehicle or when it is crushed by pressure. Additionally the mine has a magnetic-influence fuze. The mine uses a Misznay-Schardin effect warhead to penetrate the belly of armour vehicles; the projectile formed is optimized ...
[...More Info...]      
[...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]  


Magnetic Proximity Fuze
A magnetic proximity fuse was patented by P.J. Eliomarkakis, (United States Patent US2434551 of January 13, 1948) although similar devices had been in service for nearly a decade. It is a type of proximity fuze that initiates a detonator in a piece of ordnance such as a land mine, naval mine, depth charge, or shell when the fuse's magnetic equilibrium is upset by a magnetic object such as a tank or a submarine. Magnetic field sensors and movement sensors inside the ordnance detect changes to the terrestrial magnetic field of the ordnance caused by another ferromagnetic object. A signal processor inside the ordnance receives the signals from the magnetic field sensors and movement sensors and activates the detonator which will then detonate the explosives within the ordnance. Examples Examples of pieces of ordnance that employ a magnetic fuze include: * the Chinese Chen-2 bottom mine * the Egyptian T-93 mine See also * Proximity sensor * Reed switch * Precision bombing * Pr ...
[...More Info...]      
[...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]