Self-constructed automated syringe for preparation of micron-sized particulate samples in x-ray microtomography

In X-ray microtomography the sample has to meet special requirements regarding (1) mechanical stability (blurring), (2) geometry (FOV - field of view, rotational symmetry) and (3) composition (high attenuating phases). When analyzing micron-sized particulate material (e.g. powders), the particles in the FOV have to be (4) statistically representative and fixation (embedding matrix) becomes a critical issue due to segregation and agglomeration effects. The authors describe a self-constructed, low-cost automated syringe that allows controlling aspiration speed and suctioning volume. The carrier matrix is a wax structure that is shock frozen within a small polymeric tube. With this, the authors could successfully validate the method to determine particle size distributions (PSD). The described method is used in a related study by Ditscherlein et al. (2019). • Low-cost automated syringe constructed with LEGO-parts and automatized with Arduino-microcontroller. • Particle sample embedded within a shock-frozen wax matrix. • Reproducibility successfully demonstrated by determining particle size distributions.