Difference between revisions of "Oxygen balance"

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'''Oxygen balance''' ('''OB''' or '''OB%''') refers to the amount of oxygen contained in a compound relative to the amount needed to convert all the [[carbon]] to [[carbon dioxide]], the [[hydrogen]] to [[water]] and if present, [[sulfur]], [[phosphorus]] or halogen to its respective oxides or non-oxidizable products. To put it shortly, the degree to which an explosive can be oxidized.
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'''Oxygen balance''' ('''OB''' or '''OB%''') refers to the amount of oxygen contained in a compound relative to the amount needed to convert all the [[carbon]] to [[carbon dioxide]], the [[hydrogen]] to [[water]] and if present, [[sulfur]], [[phosphorus]] to its respective oxides or in the case of nitrogen and halogens, non-oxidizable products. To put it shortly, the degree to which an explosive can be oxidized.
  
 
==General==
 
==General==
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[[Category:Explosives engineering]]

Latest revision as of 20:10, 17 June 2019

Oxygen balance (OB or OB%) refers to the amount of oxygen contained in a compound relative to the amount needed to convert all the carbon to carbon dioxide, the hydrogen to water and if present, sulfur, phosphorus to its respective oxides or in the case of nitrogen and halogens, non-oxidizable products. To put it shortly, the degree to which an explosive can be oxidized.

General

Oxygen balance comes in three forms:

  • Positive oxygen balance: The explosive molecule contains more oxygen than is needed to fully oxidize its components.
Example: Erythritol tetranitrate (C4H6N4O12 → 4 CO2 + 3 H2O + N2 + 3/2 O2)
  • Zero oxygen balance: The explosive molecule contains just enough oxygen to form carbon dioxide from carbon, water from hydrogen molecules, all of its sulfur dioxide from sulfur, and all metal oxides from metals with no excess.
Example: Ethylene glycol dinitrate (C2H4N2O6 → 2 CO2 + 2 H2O + N2)
  • Negative oxygen balance: The explosive molecule contains less oxygen than is needed, the combustion will then be incomplete, and large amount of toxic gases like carbon monoxide will be present.
Example: Trinitrotoluene (C7H5N3O6 → CO2 + 2 H2O + 2 CO + 4 C + 1/2 H2 + 3/2 N2)

The brisance, strength and sensitivity of an explosive material are all somewhat dependent upon oxygen balance and tend to approach their maxima as oxygen balance approaches zero. However, there are many exceptions from this rule. Certain explosive materials, such as acetone peroxide, which has a negative oxygen balance of -151%, is much more unstable than explosive materials with a less negative oxygen balance, such as TNT (−74%), nitromethane (-39%), PETN (-10%) or even explosive materials with a positive oxygen balance such as mannitol hexanitrate (+7%), ammonium nitrate (+20%) or ammonium perchlorate (+27%). The chemical structure of the explosive material and the types of bond present have a greater influence on its properties.

The oxygen balance is very important when creating mixtures of explosives. One example is the family of explosives called amatols, which are mixtures of ammonium nitrate and TNT. Since ammonium nitrate has an oxygen balance of +20% and TNT has an oxygen balance of −74%, it is desirable that the mixture with an oxygen balance of zero would be have best explosive properties. In actual practice a mixture of 80% ammonium nitrate and 20% TNT by weight yields an oxygen balance of +1%, the best properties of all mixtures, and an increase in strength of 30% over TNT.

Calculate oxygen balance

Oxygen balance can be calculated using the oxygen balance formula.

A good oxygen balance calculator can be found here.

References

Relevant Sciencemadness threads