Overpressure: Difference between revisions
imported>Howard C. Berkowitz No edit summary |
mNo edit summary |
||
(4 intermediate revisions by 2 users not shown) | |||
Line 1: | Line 1: | ||
{{subpages}} | {{PropDel}}<br><br>{{subpages}} | ||
At a basic level, the U.S. Department of Defense defines '''overpressure''' as the pressure resulting from the blast wave of an explosion, most often | At a basic level, the U.S. Department of Defense defines '''overpressure''' as the pressure resulting from the blast wave of an explosion, most often nuclear or of a [[explosives#volumetric explosives|volumetric explosives]]. It is referred | ||
to as “positive” when it exceeds atmospheric pressure and “negative” during the passage of | to as “positive” when it exceeds atmospheric pressure and “negative” during the passage of | ||
the wave when resulting pressures are less than atmospheric pressure. | the wave when resulting pressures are less than atmospheric pressure. | ||
From the [[emergency management]] standpoint, knowing the level of overpressure to which an area is exposed helps predict casualties and resource needs. It is also predictive of [[blast injuries]]. | |||
The resistance of various structures to blast is frequently stated in resistance to overpressure. | The resistance of various structures to blast is frequently stated in resistance to overpressure. | ||
Line 28: | Line 30: | ||
To put this into perspective with respect to military structures, however, some missile silos are known to have been designed to withstand overpressures into the hundreds or low thousands of PSI. | To put this into perspective with respect to military structures, however, some missile silos are known to have been designed to withstand overpressures into the hundreds or low thousands of PSI. | ||
Overpressures from large explosions, especially nuclear, are determined by the [[Mach effect]], which is a function of burst altitude that, for sufficiently low burst heights, causes reinforcement between the direct shock wave of the burst and of shock waves reflected from the ground. | Overpressures from large explosions, especially nuclear, are determined by the [[Mach effect]], which is a function of burst altitude that, for sufficiently low burst heights, causes reinforcement between the direct shock wave of the burst and of shock waves reflected from the ground.[[Category:Suggestion Bot Tag]] |
Latest revision as of 11:00, 30 September 2024
This article may be deleted soon. | ||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
At a basic level, the U.S. Department of Defense defines overpressure as the pressure resulting from the blast wave of an explosion, most often nuclear or of a volumetric explosives. It is referred to as “positive” when it exceeds atmospheric pressure and “negative” during the passage of the wave when resulting pressures are less than atmospheric pressure. From the emergency management standpoint, knowing the level of overpressure to which an area is exposed helps predict casualties and resource needs. It is also predictive of blast injuries. The resistance of various structures to blast is frequently stated in resistance to overpressure.
To put this into perspective with respect to military structures, however, some missile silos are known to have been designed to withstand overpressures into the hundreds or low thousands of PSI. Overpressures from large explosions, especially nuclear, are determined by the Mach effect, which is a function of burst altitude that, for sufficiently low burst heights, causes reinforcement between the direct shock wave of the burst and of shock waves reflected from the ground. |
- Articles for deletion November
- CZ Live
- Military Workgroup
- Engineering Workgroup
- Physics Workgroup
- Nuclear Engineering Subgroup
- Emergency management Subgroup
- Articles written in American English
- All Content
- Military Content
- Engineering Content
- Physics Content
- Military tag
- Nuclear Engineering tag
- Emergency management tag