Detonation-Physical or Chemical

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In summary, detonation is a physical process that involves a chemical reaction in which energy is released. This process is initiated by a shockwave and results in a rapid expansion of gases and shockwaves. The explosive material undergoes a chain reaction that releases energy in the form of heat and kinetic energy. Unlike combustion, which requires heat, fuel, and oxidant, the energy for detonation comes from the chemical process itself. This can be seen in the example of the MQ-9 Reaper drone, which carries thermobaric warheads that use a longer-lasting blast wave to cause more damage to structures and increase the number of casualties."
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Mechaniac
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1.The explosion resulting from the detonation of High explosives likes TNT ,RDX ...are they chemical reactions at all ,because the initiation requires detonation waves and no flame or oxidation as such .

2.Detonation is followed by rapid expansion of gases accompanied by shockwaves .

3.Can somebody throw light on the mechanics of this reaction .
 
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The initial shockwave that sets off the explosion simply compresses and heats the explosive. At a certain density and temperature the explosive starts to undergo chemical reactions that release energy. Most of this energy is released as heat in the form of kinetic energy of the product particles. Like the initial shockwave, these particles heat up and compress the explosive even more, with the end result is a chain reaction that is the explosion.
 
  • #3
Combustion requires heat, fuel, and oxidant. Fuel and oxidant are both present within the explosive. Heat is provided by compression from detonation wave.

The process of detonation is a physical process, but the energy to drive detonation wave comes from a chemical process which is identical to that of combustion.
 
  • #4
Hey I'm late in my expression of gratitude but thanks you guys helped.
 
  • #5
Mechaniac, In case you would like to examine a specific kind of detonation, here's a real example used by our government:
“The MQ-9 Reaper drone can carry up to 14 AGM-114 Hellfire air-to-ground missiles. The MQ-1 Predator can carry 2 Hellfires. Each missile carries a warhead: the AGM-114M Hellfire II warhead is the Blast fragmentation/incendiary type, and the AGM-114N Hellfire II carries the Metal augmented charge (MAC) (Thermobaric) warhead. This thermobaric weapon, which includes the type known as a "fuel-air bomb", is an explosive weapon that produces a blast wave of a significantly longer duration than those produced by condensed explosives. This is useful in military applications where its longer duration increases the numbers of casualties and causes more damage to structures.”

http://en.wikipedia.org/wiki/AGM-114
http://en.wikipedia.org/wiki/Metal_augmented_charge
 

1. What is detonation and how does it differ from explosion?

Detonation is a rapid and violent chemical reaction that produces a shock wave, while an explosion is a sudden release of energy. In detonation, the reaction occurs at supersonic speeds and is typically more destructive than an explosion.

2. Is detonation a physical or chemical phenomenon?

Detonation is a chemical phenomenon that involves a rapid and exothermic chemical reaction. It is not purely physical, as it requires a specific chemical reaction to occur.

3. What factors can contribute to a detonation?

The factors that can contribute to a detonation include the type and amount of explosive material, confinement or containment of the explosive, and the presence of an initiating energy source such as heat, shock, or friction.

4. Are there any safety measures that can prevent detonation?

Yes, there are safety measures that can be taken to prevent detonation. These include proper storage and handling of explosive materials, avoiding any potential sources of energy that can initiate a detonation, and using protective barriers or containment systems.

5. How is detonation used in scientific and industrial applications?

Detonation is used in a variety of scientific and industrial applications, including mining, demolition, and propulsion systems. It is also used in scientific research to study the behavior of materials under extreme conditions and to develop new explosive materials for various purposes.

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