Uranium is a naturally-occurring chemical element with atomic number 92, which means there are 92 protons and 92 electrons in the atomic structure. Natural uranium consists primarily of isotope 238U (99.28%). Therefore the atomic mass of the uranium element is close to the atomic mass of the 238U isotope (238.03u). Natural uranium also consists of two other isotopes: 235U (0.71%) and 234U (0.0054%). Uranium has the highest atomic weight of the primordially occurring elements. Uranium metal has a very high density of 19.1 g/cm3, denser than lead (11.3 g/cm3), but slightly less dense than tungsten and gold (19.3 g/cm3).
Uranium metal is one of the densest materials found on earth:
- Osmium – 22.6 x 103 kg/m3
- Iridium – 22.4 x 103 kg/m3
- Platinum – 21.5 x 103 kg/m3
- Rhenium – 21.0 x 103 kg/m3
- Plutonium – 19.8 x 103 kg/m3
- Gold – 19.3 x 103 kg/m3
- Tungsten – 19.3 x 103 kg/m3
- Uranium – 18.8 x 103 kg/m3
- Tantalum – 16.6 x 103 kg/m3
- Mercury – 13.6 x 103 kg/m3
- Rhodium – 12.4 x 103 kg/m3
- Thorium – 11.7 x 103 kg/m3
- Lead – 11.3 x 103 kg/m3
- Silver – 10.5 x 103 kg/m3
But most of LWRs use uranium fuel, which is in the form of uranium dioxide. Uranium dioxide is a black semiconducting solid with very low thermal conductivity. On the other hand, uranium dioxide has a very high melting point and has well-known behavior.
Uranium dioxide has significantly lower density than uranium in the metal form. Uranium dioxide has a density of 10.97 g/cm3, but this value may vary with fuel burnup, because at low burnup densification of pellets can occurs and at higher burnup swelling occurs.