Difference between revisions of "Relative effectiveness factor"
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This enables engineers to determine the proper masses of different explosives when applying blasting formulas developed specifically for TNT. For example, using [[Pentaerythritol tetranitrate|PETN]], engineers would need 1.0/1.66 (or 0.60) kg to obtain the same effects as 1 kg of TNT. With [[ANFO]] or [[ammonium nitrate]], they would require 1.0/0.74 (or 1.35) kg or 1.0/0.42 (or 2.38) kg, respectively.<ref>https://en.wikipedia.org/wiki/TNT_equivalent</ref> | This enables engineers to determine the proper masses of different explosives when applying blasting formulas developed specifically for TNT. For example, using [[Pentaerythritol tetranitrate|PETN]], engineers would need 1.0/1.66 (or 0.60) kg to obtain the same effects as 1 kg of TNT. With [[ANFO]] or [[ammonium nitrate]], they would require 1.0/0.74 (or 1.35) kg or 1.0/0.42 (or 2.38) kg, respectively.<ref>https://en.wikipedia.org/wiki/TNT_equivalent</ref> | ||
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| + | 1 ton TNT equivalent is approximately: | ||
| + | * 1.0{{e|9}} calories | ||
| + | * 4.184{{e|9}} joules | ||
| + | * 3.96831{{e|6}} British thermal units | ||
| + | * 3.08802{{e|9}} foot pounds | ||
| + | * 1.162{{e|3}} kilowatt hours | ||
==References== | ==References== | ||
Revision as of 22:40, 6 February 2019
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The relative effectiveness factor (RE factor) relates an explosive's demolition power to that of TNT, in units of the TNT equivalent/kg (TNTe/kg). The RE factor is the relative mass of TNT to which an explosive is equivalent: The greater the RE, the more powerful the explosive.
This enables engineers to determine the proper masses of different explosives when applying blasting formulas developed specifically for TNT. For example, using PETN, engineers would need 1.0/1.66 (or 0.60) kg to obtain the same effects as 1 kg of TNT. With ANFO or ammonium nitrate, they would require 1.0/0.74 (or 1.35) kg or 1.0/0.42 (or 2.38) kg, respectively.[1]
1 ton TNT equivalent is approximately:
- 1.0×109 calories
- 4.184×109 joules
- 3.96831×106 British thermal units
- 3.08802×109 foot pounds
- 1.162×103 kilowatt hours
