Surface Energy of Food Contact Materials and Its Relation to Wheat Dough Adhesion

This study investigates the influence of the surface free energy (SFE) on the adhesion behaviour between wheat dough and bakery-relevant food processing surfaces. In doing so, the contact time and production-related changes of the adhesive and the adherend were taken into account. The adhesion measurements were conducted by means of previously developed methods (modified Chen/Hoseney, contact time measuring cell), whereby the force required for separating the dough from the surface after processing-relevant contact times was determined applying a texture analyzer. The SFE was determined by contact angle measurements. The SFE values for the examined materials are ranged between 5.5 +/- 0.81 and 42.7 +/- 0.88 mN/m. A strong linear correlation between the SFE of the bakery surfaces and their adhesion to dough could be determined after a certain contact time (>= 1 min) (r = + 0.96 for surfaces with S-a > 20 mu m; r = + 0.94 for surfaces with S-a < 20 mu m). Bakery surfaces with energy values sigma(solid surface, total) > 30 mN/m including a polar content indicated a strong interaction with wheat dough, which was confirmed by high adhesion values. Production-related changes to the processing surfaces showed a great impact on the adhesion behaviour: e.g. the abrasion of proofing cloths caused a higher amount of protruding fibres, which operate as a separating layer, resulting in a decrease of dough adhesion even after long contact times. The results in this study emphasize the importance of the SFE in the development of processing surfaces for the baking industry.

Automated summary

This study investigated the influence of surface free energy (SFE) on the adhesion behavior between wheat dough and bakery surfaces, finding a strong linear correlation between SFE of surfaces and adhesion to dough. Production-related changes to surfaces had a significant impact on adhesion behavior, such as abrasion of proofing cloths affecting dough adhesion. The results highlight the importance of considering SFE in developing processing surfaces for the baking industry.