| Revision as of 02:14, 15 July 2004 editFastfission (talk | contribs)17,173 edits changing line about enrichment needed for weapon -- that number looks *way* too low for me without any citation.← Previous edit | Revision as of 02:17, 15 July 2004 edit undoFastfission (talk | contribs)17,173 editsm removed useless link (tells you nothing about enriched uranium) and added note about DUNext edit → | ||
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| Natural uranium consists mostly of the U-238 ], with about 0.7 percent by weight (varies per mine though) as U-235 which is the only isotope existing in nature to any appreciable extent that is ] by thermal ]s. For use in commercial ]s natural uranium is enriched to about 3 percent U-235. Highly enriched uranium (HEU), which is used in nuclear submarine reactors contains at least 50 percent U-235, but typically exceeds 90 percent. Generally very high levels of enrichment are needed for ]s, as the presence of the U-238 isotope inhibits the runaway chain reaction that is responsible for the weapon's power. | Natural uranium consists mostly of the U-238 ], with about 0.7 percent by weight (varies per mine though) as U-235 which is the only isotope existing in nature to any appreciable extent that is ] by thermal ]s. For use in commercial ]s natural uranium is enriched to about 3 percent U-235. Highly enriched uranium (HEU), which is used in nuclear submarine reactors contains at least 50 percent U-235, but typically exceeds 90 percent. Generally very high levels of enrichment are needed for ]s, as the presence of the U-238 isotope inhibits the runaway chain reaction that is responsible for the weapon's power. | ||
| During the ] enriched uranium was given the codename oralloy, a shortened version of Oak Ridge alloy, after the plant where the uranium was enriched. The term oralloy is still occasionally used to refer to enriched uranium. The U-238 with extremely low U-235 content is known as ], and is considerably less ] than even natural uranium. | During the ] enriched uranium was given the codename oralloy, a shortened version of Oak Ridge alloy, after the plant where the uranium was enriched. The term oralloy is still occasionally used to refer to enriched uranium. The U-238 with extremely low U-235 content is known as ], and is considerably less ] than even natural uranium, though still extremely dense and is useful for armor penetrating weapons. | ||
| The ability to enrich uranium is of interest to those concerned about ]. | The ability to enrich uranium is of interest to those concerned about ]. | ||
| For information on how uranium is enriched see ] | For information on how uranium is enriched see ]. | ||
| ==External links== | |||
Revision as of 02:17, 15 July 2004
Enriched uranium is uranium whose uranium-235 content has been increased through the process of isotope separation. Natural uranium consists mostly of the U-238 isotope, with about 0.7 percent by weight (varies per mine though) as U-235 which is the only isotope existing in nature to any appreciable extent that is fissionable by thermal neutrons. For use in commercial nuclear reactors natural uranium is enriched to about 3 percent U-235. Highly enriched uranium (HEU), which is used in nuclear submarine reactors contains at least 50 percent U-235, but typically exceeds 90 percent. Generally very high levels of enrichment are needed for nuclear weapons, as the presence of the U-238 isotope inhibits the runaway chain reaction that is responsible for the weapon's power.
During the Manhattan Project enriched uranium was given the codename oralloy, a shortened version of Oak Ridge alloy, after the plant where the uranium was enriched. The term oralloy is still occasionally used to refer to enriched uranium. The U-238 with extremely low U-235 content is known as depleted uranium, and is considerably less radioactive than even natural uranium, though still extremely dense and is useful for armor penetrating weapons.
The ability to enrich uranium is of interest to those concerned about nuclear weapons proliferation.
For information on how uranium is enriched see isotope separation.