Sieverts' law
Appearance
Sieverts' law, in physical metallurgy and in chemistry, is a rule to predict the solubility of gases in metals. It is named after German chemist Adolf Sieverts (1874–1947).[1] The law states that the solubility of a diatomic gas in metal is proportional to the square root of the partial pressure of the gas in thermodynamic equilibrium.[2] Hydrogen, oxygen and nitrogen are examples of dissolved diatomic gases of frequent interest in metallurgy.
Justification
[edit]Sieverts' law can be readily rationalized by considering the reaction of dissolution of the gas in the metal, which involves dissociation of the molecule of the gas. For example, for nitrogen:
- N2 (molecular gas) ⇌ 2 N (dissolved atoms)
For the above reaction, the equilibrium constant is
where:
- cat is the concentration of the dissolved atoms into the metal (in the case above, atomic nitrogen N),
- pmol is the partial pressure of the gas at the interface with the metal (in the case above, the molecular nitrogen N2).
Therefore,