Fractional viscoelastic models of porcine skin and its gelatin-based surrogates

• Published in: Mechanics of materials Vol. 177; p. 104559
• Main Authors: Moučka, R., Sedlačík, M., Pátíková, Z.
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 09.02.2023
• Subjects: Creep; Fractional models; Gelatin; Porcine skin; Viscoelasticity; Viscoelasticity; Creep; Gelatin; Fractional models; Porcine skin
• ISSN: 0167-6636; 1872-7743
• DOI: 10.1016/j.mechmat.2023.104559

Viscoelasticity of porcine skin and its material substitute, modelled by variously concentrated bovine gelatin, was determined in static (creep test) and dynamic (oscillatory test) mode by the means of rotational rheometry to obtain creep compliance and complex shear modulus. Mechanical properties characterization was also supplemented with large deformation compression test in order to determine and correlate shear and compression moduli of gelatin with its concentration dependence. Obtained data was fitted with fractional viscoelastic models (Poynting-Thomson, Maxwell) in order to quantify in detail gelatin's transition from viscous-like behavior towards solid-like state with increasing gelatin concentration and hence crosslinking density. Potential of gelatin as biomaterial for skin surrogate was identified as well as a concentration region in which gelatin exhibits closest viscoelastic behavior to native porcine skin used. •Viscoelastic properties of porcine skin and its gelatin-based surrogates.•Generalized fractional viscoelastic models are used for crosslinking density evaluation.•Modelling time-dependent mechanical properties of skin.