Spectral analysis of force fluctuations during probe penetration into cohesive powders

We investigate force fluctuations during probe penetration into cohesive powders consisting of ∼ 5 μm lactose particles with varying surface properties prepared by spray drying. The results obtained for the more cohesive powders were remarkably similar to those previously reported for orders of magnitude larger noncohesive particles. For the less cohesive powders, the spectral densities were instead found to exhibit two distinct power-law regions. Furthermore, the spectra were found to be independent of the geometry of the penetrating probe and dimensions of the die cavity. These findings suggest that the response is dominated by particle aggregate or agglomerate movement for the more cohesive powders, whereas the behaviour of the less cohesive ones is consistent with a response dominated by relatively weak force chains, with the fluctuations resulting from the recurring creation and collapse of jammed states being damped for length scales > 0.1 mm.

Graphical abstractWe investigate force fluctuations during probe penetration into cohesive powders with varying surface properties. The spectra were found to be largely independent of the geometry of the penetrating probe and dimensions of the die cavity (see the figure). Qualitatively different results were obtained for the more and less cohesive powders, indicating that their constrained dynamics differ.Figure optionsDownload full-size imageDownload as PowerPoint slide