Experimental and numerical analysis of the Poisson’s ratio on soft polyurethane foams under tensile and cyclic compression load
Caterina Casavola, Lucia Del Core, Vincenzo Moramarco, Giovanni Pappalettera, Marika Patronelli
Abstract
In this paper results on the evolution of Poisson’s ratio under tensile and cyclic compression on low-density soft open-cell polyurethane foams (85, 63, 46 kg/m3) up to 80% of strain are presented as obtained by full-field deformation measurements. The Poisson’s ratio was investigated using a Poisson’s function and a tangent Poisson’s function formulation, more capable to capture the instantaneous behavior of the foam and a possible auxetic behavior. The displacements’ maps and the stress-strain curves obtained experimentally by digital image correlation are compared with the numerical results of the FEM analysis obtained for ν = 0 and ν ≠ 0.
Topics & Concepts
Poisson's ratioMaterials sciencePoisson distributionCompression (physics)AuxeticsUltimate tensile strengthComposite materialDigital image correlationPolyurethaneDeformation (meteorology)TangentFinite element methodStructural engineeringMathematicsGeometryEngineeringStatisticsCellular and Composite StructuresPolymer composites and self-healingStructural Response to Dynamic Loads