Structure-fracture measurements of particulate gels |
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Authors: | C Öhgren M Langton A-M Hermansson |
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Affiliation: | (1) Department of Food Science, North Carolina State University, Box 7624, Raleigh, NC 27695-7624, USA |
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Abstract: | Images on a micron scale and the stress-strain behaviour of gel structures during tension were simultaneously recorded in real time using a mini fracture cell under the confocal laser scanning microscope (CLSM). -lactoglobulin gels tailor-made to vary in density, connectivity, thickness of strands and size of aggregates and clusters were used as a food model system. Amylopectin and gelatin were used to generate different types of -lactoglobulin network microstructures and also as a second continuous phase.Both rheological and structural differences in fragility between -lactoglobulin gels were verified according to the density of their aggregated network structure. A dense gel has a more brittle behaviour where the clusters are rigid and the crack propagates smoothly compared to a gel with an open network structure, which has a discontinuous crack growth, via a winding pathway around clusters, and also break-up of the pores far from the crack tip. Differences in the stretchability of the aggregated -lactoglobulin structure, induced by addition of amylopectin solution, were proved and related to differences in stress-strain behaviour and crack propagation.Gelatin gels in the pores between the -lactoglobulin clusters do not affect the structure of the -lactoglobulin network but make the fracture fragile giving a smooth fracture surface, cause continuous crack growth and fracture propagation through -lactoglobulin clusters. This is a consequence of that the mixed gel follows the behaviour of the gelatin gel when the gelatin phase is stronger than the -lactoglobulin network. |
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