Volatile corrosion inhibitors (VCIs) are incorporated into packaging paper or film to protect metals against atmospheric corrosion. The vapour pressure determines the equilibrium concentration of a volatile corrosion inhibitor (VCI) in the surrounding atmosphere. However, the rate at which the VCI can be delivered across the air gap to a metal surface is determined by the gas permeability. This is the product of the vapour pressure and the diffusion coefficient: S-A = PADAB. The gas permeability of commercial VCIs was estimated at elevated temperatures from vaporisation rates measured using a simple thermo-gravimetric method (TG).
Reference:
Pieterse, N, et al. 2006. Estimating the gas permeability of commercial volatile corrosion inhibitors at elevated temperatures with thermo-gravimetry. Corrosion Science, vol. 48(8), pp 1986-1995
Pieterse, N., Focke, W., Vuorinen, E., & Racz, I. (2006). Estimating the gas permeability of commercial volatile corrosion inhibitors at elevated temperatures with thermo-gravimetry. http://hdl.handle.net/10204/1556
Pieterse, N, WW Focke, E Vuorinen, and I Racz "Estimating the gas permeability of commercial volatile corrosion inhibitors at elevated temperatures with thermo-gravimetry." (2006) http://hdl.handle.net/10204/1556
Pieterse N, Focke W, Vuorinen E, Racz I. Estimating the gas permeability of commercial volatile corrosion inhibitors at elevated temperatures with thermo-gravimetry. 2006; http://hdl.handle.net/10204/1556.
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