First of all I would recommend reading this post I have posted on a separate issue:
http://quantumwise.com/forum/index.php?topic=1341.msg6582#msg6582Regarding your system, the metaGGA can be used in two ways - either with an automatic determination of the parameter c ( which you are using ) or by setting it manually. However the formula for calculation of C is ill-defined for non crystals, so therefore for molecules and periodic structures with a lot of vacuum, the parameter c will slowly become more and more ill-defined, and the Hamiltonian will have larger and larger fluctuation , and could potentially crash the calculation.
So if you want to use metaGGA for such as system you should first determine the a sample system in which you will determine the optimial c parameter by manual tuning, then when creating your calculation on your true system, use this parameter you found for your sample study. This works quite well.
However I think it is important to understand what is the need for metaGGA. metaGGA can be used for opening the band gap of a semi-conductor/insulator, where LDA would underestimate the band gap. Hence it has no real application for metals as it has no sane effect on materials which are truly metals.
