In its natural state, common uranium (U-238) can't generate destructive nuclear explosions. It either must be enriched—made more concentrated in a rare form of uranium (U-235)—or converted ...

The geopolitical tensions and limitations on processing refined uranium ore concentrate into usable fuel threaten to stifle ...

In order to produce fuel for certain types of nuclear reactors and nuclear weapons, uranium has to be "enriched" in the U-235 isotope, which is responsible for nuclear fission. During the enrichment ...

While traditional sources of fuel spark environmentalists’ concerns about climate change and the impact on the environment, politicians around the world are focused on investigating alternative ...

Uranium-235 is special because it is 'fissile' meaning it can be split or broken apart easily when hit by slow-moving ...

Iran’s stockpile of enriched uranium has surged since 2009 and has continued to increase since an interim nuclear agreement ... to the 20 percent uranium-235 level as required by the November ...

Quite literally, at the core of all this nuclear expansion is uranium, a radioactive element that is mined and then enriched into the U-235 isotope used by most of the 440 or so commercial nuclear ...

Nuclear submarines test-fired ICBMs, while nuclear-capable bombers carried out practice launches of long-range cruise ...

Fair warning: if you’re going to try to mold uranium glass in a microwave kiln, you might want to not later use the oven for preparing food. Just a thought. The powdered uranium glass then goes ...

Uranium has several isotopes, with uranium-235 being the most critical for nuclear energy due to its ability to sustain a chain reaction. According to the International Atomic Energy Agency (IAEA ...

Uranium is the primary fuel for nuclear reactors and must be managed properly, in a safe and sustainable manner. Recent annual production of natural uranium world-wide has been between 55,000 and ...