Papers by Keyword: Digital Volume Correlation

Abstract: Composite sandwich plates and beams are increasingly employed as an engineering material in structures such as airplanes, ships, bridges, and vehicles because of their superb strength to weight ratio. Understanding a sandwich structure’s failure mechanism is a prerequisite for a safety design. In this paper, we employ a new experimental technique called DVSP (Digital Volumetric Speckle Photography) to map the interior deformation of a short composite sandwich beam under three-point bending. 3D displacement fields and shear strain fields of 5 transverse and 4 longitudinal sections of the beam are mapped quantitatively in detail as a function of increasing load. The beam fails in delamination of the interface between the face sheet and core.

Abstract: This paper deals with the use of X-ray tomography and Digital Volume Correlation in order to study the mechanical behaviour of a low density polymeric auxetic foam. First, the metrological performances of the procedure are assessed using rigid body translation. Then, tensile test results are analyzed for two load steps and comments on the deformation process of the foam are given with a specific view to Poisson’s effect.

Abstract: With increasing understanding of the important role mechanics plays in cell behavior, the experimental technique of traction force microscopy has grown in popularity over the past decade. While researchers have assumed that cells on a flat substrate apply tractions in only two dimensions, a finite element simulation is discussed here that demonstrates how cells apply tractions in all three dimensions. Three dimensional traction force microscopy is then used to experimentally confirm the finite element results. Finally, the implications that the traction distributions of cell clusters have on the study of inhibition of proliferation due to cell contact and scattering of cells in a cluster are discussed.