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Measurement of molten chocolate friction under simulated tongue-palate kinematics: Effect of cocoa solids content and aeration

G. Samaras, Dimitrios Bikos, Josélio Vieira, Christoph Hartmann, M.N. Charalambides, Yannis Hardalupas, Marc Masen, Philippa Cann

2020Current Research in Food Science30 citationsDOIOpen Access PDF

Abstract

The perception of some food attributes is related to mechanical stimulation and friction experienced in the tongue-palate contact during mastication. This paper reports a new bench test to measure friction in the simulated tongue-palate contact. The test consists of a flat PDMS disk, representing the tongue loaded and reciprocating against a stationary lower glass surface representing the palate. The test was applied to molten chocolate samples with and without artificial saliva. Friction was measured over the first few rubbing cycles, simulating mechanical degradation of chocolate in the tongue-palate region. The effects of chocolate composition (cocoa solids content ranging between 28 ​wt% and 85 ​wt%) and structure (micro-aeration/non-aeration 0-15 ​vol%) were studied. The bench test clearly differentiates between the various chocolate samples. The coefficient of friction increases with cocoa solids percentage and decreases with increasing micro-aeration level. The presence of artificial saliva in the contact reduced the friction for all chocolate samples, however the relative ranking remained the same.

Topics & Concepts

Reciprocating motionAerationMaterials scienceTongueMasticationComposite materialChemistryDentistryMechanical engineeringEngineeringMedicineGas compressorOrganic chemistryPathologyTemporomandibular Joint DisordersBotulinum Toxin and Related Neurological DisordersAdvanced Sensor and Energy Harvesting Materials
Measurement of molten chocolate friction under simulated tongue-palate kinematics: Effect of cocoa solids content and aeration | Litcius