Effect of relative humidity on the migration of benzophenone from paperboard into the food simulant Tenax® and modelling hereof

Abstract

The aim of this study was to investigate the effect of relative humidity on the migration of benzophenone from paperboard into the food simulant Tenax®. Kinetic migration investigations were carried out with three relative humidities in the interval between 39% and >73%. All investigations were carried out at a constant temperature of 34°C. It was found that the migration of benzophenone after more than 30 days was 4.8 times higher at a relative humidity of 64%–71%, and 7.3 times higher at a relative humidity of >73%, compared with that at a relative humidity of 39%–49%. Diffusion and partition coefficients were derived from the results by using a software for modelling migration in multilayer materials. Both the diffusion coefficient and the partition coefficient, between paperboard and Tenax®, decrease with increasing relative humidity. The experimental results were correctly modelled only when the paperboard was regarded as a one-layer system as compared with a two-layer system: where the main part of the paperboard (B1) has a high diffusion rate and a thin part of the paperboard (B2) in contact with the foodstuff has a lower diffusion rate.

Keywords:

• benzophenone
• food-contact materials
• food packaging
• food safety
• migration
• migration modelling
• paper and board
• predictive diffusion modelling
• relative humidity
• water activity

Acknowledgements

The authors thank Dr. Otto Piringer for his guidance in the use of MIGRATEST^© Exp when used for modelling the migration from paper and board. The authors also thank Glud & Marstrand (Hedehusene, Denmark) for supplying the screw caps.