Flash powder: Difference between revisions
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Another method for the production of flashpowder is to use a 3:2 ratio of [[ammonium nitrate]] to [[magnesium]] by weight. |
Another method for the production of flashpowder is to use a 3:2 ratio of [[ammonium nitrate]] to [[magnesium]] by weight. |
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:2 |
:2 KNO<sub>3</sub> + 5 Mg → K<sub>2</sub>O + N<sub>2</sub> + 5 MgO |
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The finer ground (mesh) the magnesium is, the faster it will burn and the more smoke it will produce. Magnesium based compositions are unstable over long periods of time, due to slow oxidation of the magnesium surface by both atmospheric oxygen and nitrates in the mixture. |
The finer ground (mesh) the magnesium is, the faster it will burn and the more smoke it will produce. Magnesium based compositions are unstable over long periods of time, due to slow oxidation of the magnesium surface by both atmospheric oxygen and nitrates in the mixture. |
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Revision as of 02:13, 14 June 2008
Created by Dean Adams Flash powder is a pyrotechnic composition, a mixture of oxidizer and metallic fuel which burns quickly and if confined will produce a loud report. It is widely used in theatrical pyrotechnics and fireworks (namely salutes, eg. cherry bombs, M-80s, and firecrackers), and was once used for flashes in photography.
Different varieties of flash powder are made from different compositions; most common are potassium perchlorate and aluminium powder. Sometimes, sulfur is included in the mixture to increase the sensitivity. Early formulations used potassium permanganate instead of perchlorate.
Flash powders, specifically chlorate/perchlorate ones, are unique in that they produce no gas products (all solid products), which means that they are not explosives by scientific definition. In that regard, they are similar to thermite mixtures. They are also used in military pyrotechnics, when production of large amount of noise, light, or infrared radiation is required; eg. missile decoy flares and stun grenades.
Flash powders - especially involving aluminium and chlorates - are oftenly in-sensitive to friction, impact, and static electricity. Even as little as 0.1-10 millijoules spark can set off certain mixtures.
Safety and Handling
Flash-powder mixtures pose the serious risks of burn, amputation, blindness and death. They should not be handled by the untrained or inexperienced. Flash powder and flash-powder devices pose exceptionally high risks to children who typically cannot understand the danger, who may be less adept with safe handling techniques, and who tend to suffer more-severe injuries than adults.
Certain formulations, notably Aluminium powder and potassium chlorate with or without sulfur, become less stable over time and may combust with little or no warning. Modern pyrotechnic practices call for never using sulfur in a mix containing chlorates.
If ever mixing flash powder, never make more than 5 grams at a time. Even experienced hobbyists should never make more than 50 grams at a given time. Producing more than 5 grams for one device is considered a federal offense in the United States and is punishable by up to 6 years in prison.
Production of flash powder
Hobbyist pyrotechnicians usually use a method called diapering, in which the materials are poured separately onto a large piece of paper, which is then folded up at the corners and gently rocked back and forth until the chemicals are thoroughly mixed. Professionally, automated systems are used to achieve the same result.
Aluminium and Chlorate
Because of the above mentioned instability, Aluminium powder and potassium chlorate is a bad choice for flash powder. For that reason it has been largely replaced by the potassium perchlorate mixture. Aluminium powder and potassium chlorate is preferred only if cost is important, because potassium chlorate is less expensive than potassium perchlorate.
- KClO3 + 2Al → Al2O3 + KCl
Aluminium and Perchlorate
Aluminium powder and potassium perchlorate make up the only 2 components of a popular and simple type of flash powder. This compound is stable for a flash powder.
The balanced equation for the reaction is:
- 3 KClO4 + 8 Al → 4 Al2O3 + 3 KCl
Generally, 70% potassium perchlorate and 30% aluminium (or 70g KClO4 plus 30g Al to give you 100g flash powder) mix of potassium perchlorate and aluminium powder works very well. The more finely powdered the materials, the faster the reaction, and the "sharper" the flash. Care must be taken, however, to prevent any sparks or friction while mixing these two chemicals, as those may cause unwanted ignition.
Magnesium and Ammonium nitrate
Another method for the production of flashpowder is to use a 3:2 ratio of ammonium nitrate to magnesium by weight.
- 2 KNO3 + 5 Mg → K2O + N2 + 5 MgO
The finer ground (mesh) the magnesium is, the faster it will burn and the more smoke it will produce. Magnesium based compositions are unstable over long periods of time, due to slow oxidation of the magnesium surface by both atmospheric oxygen and nitrates in the mixture.
External links
- Flash Powder Information and Instructions
- The Explosives and Weapons Forum contains a number of flash powder "recipes" using a wide variety of materials.