Editing Alloy (section)

=== Mechanisms ===
[[file:Alloy atomic arrangements showing the different types.svg|thumb|Different atomic mechanisms of alloy formation, showing pure metal, substitutional, interstitial, and a combination of the two]]

When a molten metal is mixed with another substance, there are two mechanisms that can cause an alloy to form, called ''atom exchange'' and the ''interstitial mechanism''. The relative size of each element in the mix plays a primary role in determining which mechanism will occur. When the atoms are relatively similar in size, the atom exchange method usually happens, where some of the atoms composing the metallic crystals are substituted with atoms of the other constituent. This is called a ''substitutional alloy''. Examples of substitutional alloys include bronze and brass, in which some of the copper atoms are substituted with either tin or zinc atoms respectively.

In the case of the interstitial mechanism, one atom is usually much smaller than the other and  can not successfully substitute for the other type of atom in the crystals of the base metal. Instead, the smaller atoms become trapped in the [[interstitial site]]s between the atoms of the crystal matrix. This is referred to as an ''interstitial alloy''. Steel is an example of an interstitial alloy, because the very small carbon atoms fit into interstices of the iron matrix.

[[Stainless steel]] is an example of a combination of interstitial and substitutional alloys, because the carbon atoms fit into the interstices, but some of the iron atoms are substituted by nickel and chromium atoms.<ref name="Jon L. Dossett Page 1-14">Dossett, Jon L.; Boyer, Howard E. (2006) ''Practical heat treating''. ASM International. pp. 1–14. {{ISBN|1-61503-110-3}}.</ref>