LC3 type cements do not need introduction in this conference, neither the importance of studying the
microporosity features (amount, size(s), connectivities, etc.). However, analysing the porosity in an
accurate, quantitative and robust way is far from easy/well-established. Here, we intend to contribute
by analysing selected microporosity features and their evolution using synchrotron (and laboratory) X-
ray microtomography (μCT) with the final goal of gaining a deeper insight into the microstructures of
LC3 binders. Nowadays, synchrotron μCT allows obtaining tomograms in binders with voxel sizes of 0.3
μm and true spatial resolution close to 1.0 μm [1]. Additionally, for this work, the detector was placed
at 5.5 mm from the samples and therefore, phase-propagation increased the visibility between
components with similar attenuations to the X-rays. The Paganin phase retrieval algorithm [2] was
employed which resulted in augmented contrast. Moreover, another advantage is that fast acquisition
times are possible, i.e. a full high-resolution tomogram can be recorded in 5 minutes.