Theoretical optimisation of constitution of alloys by decoding their densities

The proposed computer-based Mathematical Model optimises constitution of multi-component alloys by decoding their densities into elemental percent compositions without prior knowledge of constituent metals. It executes mathematical equations to generate two entirely different series of probable compositions of alloys for their densities according to their standard elemental densities and predefined imaginary mass fractions of constituent metals. It finally compares the series to detect common composition which has always been found exactly equal to the actual composition of alloy. This concordant composition represents the actual composition of alloy, which also constitutes its finger-prints for a given density. The technique may be employed for theoretical optimisation and forecasting the constitution of multi-component alloys, even if constituent metals are unknown.