They were able to study the relative positions of the atoms in both hot solid and molten uranium dioxide beads using high energy synchrotron X-ray diffraction. Skinner and colleagues got around the container problem by floating a tiny 3 millimetre bead of uranium dioxide in a gas stream and heating it with a laser. Uranium dioxide melts at over 3000☌, far too hot for most furnace container materials which would melt and react with the test samples. Until now, the extreme heat and radiation has made it impossible for scientists to study uranium dioxide's characteristics and structure in a molten state. Any sensible reactor design should take into account the real structure, physical properties, and behaviour of this melt." Too hot to handle "We can now pin down a little bit more accurately what the properties and temperature of the melt will be. "In extreme events like Fukushima and Chernobyl the uranium dioxide literally melts, and we wanted to study the material to really understand it," says the paper's lead author Dr Lawrie Skinner of Stony Brook University in New York. The findings, reported in the journal Science, may help researchers improve safety at nuclear power plants, by better understanding uranium dioxide's behaviour under extreme temperatures. In an innovative lab experiment, they discovered that uranium dioxide fuel behaves differently when molten than in its solid state. Nuclear Meltdown Scientists have managed to take their first close-up look at what happens to nuclear fuel when it becomes molten, as it would in a nuclear reactor meltdown. Japan meltdown not like Chernobyl: expert, Science Online,. ![]() Nuclear Contamination: What to Do, Science Online,.How do nuclear reactors work?, Science Online,.
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