I heard that $\ce{Cl^-}$ will corrode aluminum containers. Why? Is it because it would form a galvanic cell or produce coordination compounds?
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Related: http://chemistry.stackexchange.com/questions/22133/why-did-the-salt-on-the-skin-of-my-turkey-react-with-the-aluminum-foil-it-was-to – Klaus-Dieter Warzecha Feb 27 '16 at 10:56
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In general, it should not. Under the right conditions, i.e. acidic conditions at high temperature on a freshly exposed (e.g. scratched) $\ce{Al}$ surface, you could get some oxidation to $\ce{AlCl3}$. One industrial process for producing $\ce{AlCl3}$ is via the reaction:
$$\ce{2 Al + 6 HCl → 2 AlCl3 + 3 H2}$$
at $\mathrm{600-800^oC}$. It would of course happen much more slowly, if at all, at lower temperatures and lower acidity.
The necessity of a freshly scratched surface is to expose the aluminum metal itself, as aluminum pretty rapidly forms a thin, inert oxide layer upon exposure to air or water.
In other words, in the absence of this perfect storm of conditions, aluminum cans should be very resistant to corrosion by $\ce{NaCl}$.
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