Abstract
Packaging protects food products from environmental influences, assuring quality and safety throughout shelf life if properly performed. Packaging quality depends on the quality of the packaging material and of the closure or seal. A common problem possibly jeopardizing seal quality is the presence of seal contamination, which can cause a decreased seal strength, an increased packaging failure risk and leak formation. Therefore, early detection and removal of seal contaminated packages from the production chain is crucial. In this work, a pulsed-type active thermography method using the heated seal bars as an excitation source was studied for detecting seal contamination. Thermal image sequences of contaminated seals were recorded shortly after sealing. The detection performances of six thermal image processing methods, based on a single frame, a fit of the cooling profiles, thermal signal reconstruction, pulsed phase thermography, principal component thermography and a matched filter, were compared. High resolution digital images served as a reference to quantify seal contamination, and processed thermal images were mapped to these references. The lowest detection limit (equivalent diameter 0.60 mm) was obtained for the method based on a fit of the cooling profiles. Moreover, the detection performance of this method did not depend strongly on the time after sealing at which recording of the thermal images was started, making it a robust and generally applicable method.
Highlights
The main function of food packaging is to protect a product from environmental influences and to ensure its quality and safety throughout the distribution chain and during shelf life [1]
High resolution digital images served as a reference to quantify seal contamination
Since this study aims at obtaining the best possible seal contamination detection performance and not at obtaining a perfect fit of the cooling profiles, the first order fit is in this case study preferred over the that occur in both reconstruction (TSR) method based on a fourth order fit
Summary
The main function of food packaging is to protect a product from environmental influences and to ensure its quality and safety throughout the distribution chain and during shelf life [1]. The quality of heat-sealed flexible packaging depends on the quality of the polymer material and of the closure or seal, yet achieving proper closure of the package is often challenging [3]. Adequate seal quality implies the complete fusion of two opposing seal layers. In heat sealing, this fusion is achieved by applying a specific combination of temperature and pressure during a certain period of time, allowing the long chain molecules of the seal layers to join [2,4]
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