- Smoke screen
: "For the Transformers character, see
Smokescreen (Transformers) "A smoke screen is a release of
smoke in order to mask the movement or location of military units such asinfantry ,tank s, aircraft orship s.It is most commonly deployed in a
canister , usually as agrenade . The grenade releases a very densecloud of smoke designed to fill the surrounding area even in light wind. They have also been used byship s.Whereas smoke screens would originally have been used to hide movement from enemies' line of sight, modern
technology means that they are now also available in new forms; they can screen in theinfrared as well asvisible spectrum of light to prevent detection by infrared sensors or viewers, and also available for vehicles is a superdense form used to prevent laser beams of enemy target designators or range finders on vehicles.Technology
moke grenades
These are canister-type
grenades used as a ground-to-ground or ground-to-air signaling device. The body consists of a steel sheet metal cylinder with a few emission holes on top and on the bottom to allow smoke release when thesmoke composition inside the grenade is ignited. In those that producecolored smoke , the filler consists of 250 to 350 grams of colored (red, green, yellow or violet) smoke mixture (mostlypotassium chlorate ,sodium bicarbonate ,lactose and adye ). In those that produce screening smoke, the filler usually consists of HC smoke mixture (hexachloroethane/zinc) or TA smoke mixture (terephthalic acid). Another type of smoke grenades are those which burst. These are filled with white phosphorus (WP), which is spread by explosive action. The phosphorus catches fire in the presence of air, and burns with a brilliant yellow flame, while producing copious amounts of white smoke (phosphorus pentoxide). WP grenades double asincendiary grenade s.Smoke shell
"See also Smoke shells."
Artillery and mortars can also fire smoke generating munitions, and are the main means of generating tactical smokescreens on land. As with grenades, artillery shells are available as both emission type smoke shell, and bursting smoke shell. Mortars nearly always use bursting smoke rounds because of the smaller size of mortar bombs and the greater efficiency of bursting rounds.Smoke generators
Very large or sustained smoke screens are produced by a smoke generator. This is a machine which heats a volatile material (typically oil or an oil based mixture) to evaporate it, then mixes the vapour with cool external air at a controlled rate so it condenses to a mist with a controlled droplet size. Cruder designs simply boiled waste oil over a heater, while more sophisticated ones sprayed a specially formulated oily composition ("fog oil") through nozzles onto a heated plate. Choice of a suitable oil, and careful control of cooling rate, can produce droplet sizes close to the ideal size for Mie scattering of
visible light . This produces a very effective obscuration per weight of material used. This screen can then be sustained as long as the generator is supplied with oil, and—especially if a number of generators are used—the screen can build up to a considerable size. One 50 gallon drum of fog oil can obscure 60 miles of land in 15 minutes.Whilst producing very large amounts of smoke relatively cheaply, these generators have a number of disadvantages. They are much slower to respond than pyrotechnic sources, and require a valuable piece of equipment to be sited at the point of emission of the smoke. They are also relatively heavy and not readily portable, which is a significant problem if the wind shifts. To overcome this latter problem they may be used in fixed posts widely dispersed over the battlefield, or else mounted on specially adapted vehicles. An example of the latter is the
M56 Coyote generator.Naval methods
Warships have sometimes used a simple variation of the smoke generator, by injecting fuel oil directly into the smoke stack. They also use large floating smoke canisters, known as smoke buoys. In the past they have also used sprays of chemicals that fume on contact with air, such as
titanium tetrachloride .Infrared smokes
The proliferation of
thermal imaging FLIR systems on the battlefields necessitates the use of obscurant smokes that are effectively opaque in theinfrared part of electromagnetic spectrum. To achieve this, the particle size and composition of the smokes has to be adjusted. One of the approaches is using an aerosol of burningred phosphorus particles andaluminium coated glass fibers; the infrared emissions of such smoke curtains hides the weaker emissions of colder objects behind it, but the effect is only short-lived. Carbon (most oftengraphite ) particles present in the smokes can also serve to absorb the beams oflaser designator s. Yet another possibility is a waterfog sprayed around the vehicle; the presence of large droplets absorbs in infrared band and additionally serves as a countermeasure againstradar s in 94 GHz band. Other materials used as visible/infrared obscurants are micropulverized flakes ofbrass orgraphite , particles oftitanium dioxide , orterephthalic acid .Older systems for production of infrared smoke work as generators of
aerosol ofdust with controlled particle size. Most contemporary vehicle-mounted systems use this approach. However the aerosol stays airborne only for a short time.The
brass particles used in some infraredsmoke grenade s are typically composed of 70%copper and 30%zinc . They are shaped as irregular flakes with a diameter of about 1.7 µm and thickness of 80-320 nm. [http://orsted.nap.edu/openbook.php?record_id=9621&page=45]A reportedly good improvised system for production of aerosol effective even in far infrared is said to be a dry powder
fire extinguisher . [http://yarchive.net/mil/infrared_smoke.html]Some experimental obscurants work in both infrared and
millimeter wave region. They includecarbon fiber s, metal coated fibers orglass particles, metal microwires, particles of iron and of suitable polymers. [http://www.sew-lexicon.com/gloss_o.htm]Chemicals used for smoke generation
Zinc chloride
Zinc chloride smoke is grey-white and consists of tiny particles of
zinc chloride . The most common mixture for generating these is the zinc chloride smoke mixture (HC), consisting ofhexachloroethane , grainedaluminium andzinc oxide . The smoke consists of zinc chloride, zinc oxychlorides, andhydrochloric acid , which absorb the moisture in the air. The smoke also contains traces of organic chlorinated compounds,phosgene ,carbon monoxide , andchlorine .Its toxicity is caused mainly by the content of strongly acidic hydrochloric acid, but also due to thermal effects of reaction of zinc chloride with water. These effects cause
lesion s of themucous membrane s of the upper airways. Damage of the lower airways can manifest itself later as well, due to fine particles of zinc chloride and traces of phosgene. In high concentrations the smoke can be very dangerous when inhaled. Symptoms includedyspnea , retrosternal pain,hoarseness ,stridor ,lachrymation ,cough ,expectoration , and in some caseshaemoptysis . Delayedpulmonary edema ,cyanosis orbronchopneumonia may develop. The smoke and the spent canisters contain suspectedcarcinogen s.The prognosis for the casualties depends on the degree of the pulmonary damage. All exposed individuals should be kept under observation for 8 hours. Most affected individuals recover within several days, with some symptoms persisting for up to 1-2 weeks. Severe cases can suffer of reduced pulmonary function for some months, the worst cases developing marked dyspnea and cyanosis leading to death.
Respirators are required for people coming into contact with the zinc chloride smoke.
Chlorosulfuric acid
Chlorosulfuric acid (CSA) is a heavy, strongly acidic liquid. When dispensed in air, it readily absorbs moisture and forms dense white fog ofhydrochloric acid andsulfuric acid . In moderate concentrations it is highly irritating to eyes, nose, and skin.When chlorosulfuric acid comes in contact with water, a strong
exothermic reaction scatters the corrosive mixture in all directions. CSA is highly corrosive, so careful handling is required.Low concentrations cause prickling sensations on the skin, but high concentrations or prolonged exposure to field concentrations can cause severe irritation of the eyes, skin, and respiratory tract, and mild cough and moderate
contact dermatitis can result. Liquid CSA causesacid burn s of skin and exposure of eyes can lead to severe eye damage.Affected body parts should be washed with water and then with
sodium bicarbonate solution. The burns are then treated like thermal burns. The skin burns heal readily, while cornea burns can result in residual scarring.Respirators are required for any concentrations sufficient to cause any coughing, irritation of the eyes or prickling of the skin.
Titanium tetrachloride
Titanium tetrachloride (FM) is a yellow, non-flammable, corrosive liquid. In contact with damp air it hydrolyzes readily, resulting in a dense white smoke consisting of droplets of hydrochloric acid and particles of titanium oxychloride.The titanium tetrachloride smoke is irritant and unpleasant to breathe.
It is dispensed from aircraft to create vertical smoke curtains, and during World War II it was a favorite smoke generation agent on warships.
Goggles or a respirator should be worn when in contact with the smoke, full protective clothing should be worn when handling liquid FM. In direct contact with skin or eyes, liquid FM causes acid burns.
Phosphorus
Red
phosphorus and white phosphorus (WP) are red or waxy yellow or white substances. White phosphorus is pyrophoric - can be handled safely when under water, but in contact with air it spontaneously ignites. It is used as an incendiary. Both types of phosphorus are used for smoke generation, mostly in artillery shells, bombs, and grenades.White phosphorus smoke is typically very hot and may cause burns on contact. Red phosphorus is less reactive, does not ignite spontaneously, and its smoke does not cause thermal burns - for this reason it is safer to handle, but cannot be used so easily as an incendiary.
Aerosol of burning phosphorus articles is an effective obscurant against
thermal imaging systems. However, this effect is only very short-lived, and after the phosphorus particles are fully burned, the smoke reverts from emission to absorption. While very effective in visible spectrum, cool phosphorus smoke has only low absorption and scattering in infrared wavelengths. Additives can be present in the smoke which cover this part of the spectrum. [http://yarchive.net/mil/infrared_smoke.html]Oil
Oil smoke is usually produced by smoke generators. The resulting "smoke" is a mist of oil droplets of controlled size, and is therefore technically not smoke but fog. Rather than being produced by the combustion of fog oil, it is produced by heating of fog oil, the release of hot (but not burnt) fog oil into the air, and the condensing of hot fog oil on contact with air.
Particles of
graphite can be added to oil mist to make it opaque ininfrared spectrum, providing additional degree of protection againstthermal imaging andlaser designator s.Dyes
Various signalling purposes require the use of
colored smoke . The smoke created is a fine mist of dye particles, generated by burning a mixture of one or more dyes with a low-temperaturepyrotechnic composition , usually based onpotassium chlorate andlactose (also known as milk sugar).Colored smoke screen is also possible by adding a colored dye into the fog oil mixture. Typical white smoke screen uses titanium dioxide (or other white pigment), but other colors are possible by replacing titanium dioxide with another pigment. When the hot fog oil condenses on contact with air, the pigment particles are suspended along with the oil vapor. Early smoke screen experiments attempted the use of colored pigment, but found that titanium dioxide was the most light scattering particle known and therefore best for use in obscuring troops and naval vessels. Colored smoke became primarily used for signaling rather than obscuring. In today's military, smoke grenades are found to be non-cancer causing, unlike the 50's AN-M8 model.
Tactics
Land fighting
Smoke screens are usually used by infantry to conceal their movement in areas of exposure to enemy fire. They can also be used by
armoured fighting vehicle s, such astank s, to conceal a withdrawal. They have regularly been used since earliest times to disorientate or drive off attackers.For the crossing of the
Dnieper river in October1943 , theRed Army laid a smoke screen 30kilometre s (18mile s) long. At the Anzio beachhead in1944 , US Chemical Corps troops maintained a 25 km (15 mile) "light haze" smokescreen around the harbour throughout daylight hours, for two months. The density of this screen was adjusted to be sufficient to prevent observation by German forward observers in the surrounding hills, yet not inhibit port operations.In the Vietnam War "Smoke Ships" were introduced as part of a new Air Mobile Concept to protect crew and man on the ground from small arms fire. In 1964-65, the "Smoke Ship" was first employed by the 145th CAB using
UH-1B . [ [http://www.118ahc.org/118thAHC.htm 118thAHC ] ]Notable uses of smoke screens in naval warfare
There are a number of early examples of using incendiary weapons at sea, such as
Greek fire , stinkpots,fire ship s, and incendiaries on the decks ofturtle ship s, which also had the effect of creating smoke. The naval smoke screen is often said to have been proposed by SirThomas Cochrane in1812 , although Sir Cochrane's proposal was as much an asphyxiant as an obscurant. It is not until the early twentieth century that we get clear evidence of deliberate use of large scale naval smokescreens as a major tactic.Smoke screens were used during the
Battle of Jutland inWorld War I .In the
Battle of the River Plate inWorld War II , the German pocket battleship "Admiral Graf Spee" used a smoke screen to escape from the British cruisers.In the
Second Battle of the Atlantic inWorld War II , smoke screens were used by Allieddestroyer escort s to mask the presence of themerchant ship s from GermanU-boat s.At the
Battle off Samar in October 1944, Taffy Three, the American Escort Carrier task unit, the escorts laid a smoke screen to allow the carriers to escape, and add to the general confusion.References
See also
*
Smoke bomb
*PT boat
*Early thermal weapons
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