Properties of the calcium silicates and calcium aluminates occurring in Portland cement

The early strength development of ordinary Portland cement (OPC)/calcium aluminate cement (CAC) pastes (92.5/7.5, 80/20, and 20/80) was studied. Conduction calorimetry, X-ray diffraction, and scanning electron microscopy methods were used to monitor the heat evolution and microstructural changes of

The mineralizing effect of 0.5% F-as CaF on the high-temperature reactions in the quaternary system CaO-Al$OS-Fe20S-Si02 was studied in the presence of minor amounts of MgO and K2SO4. The partitioning of fluorine between the calcium aluminate and calcium silicate phases was detennined in relation to

Mechanical properties of Ca(OH) 2 are compared with those of portland cement paste at different por?slties. Intrinsic values of modulus of elasticity (E) and mlcrohardness (H) for Ca(OH) 2 compacts were obtained by extrapolatlng to zero porosity log E and log H versus porosity curves. The values for

## Abstract Calcium silicate cement (CSC) has favorable biocompatible properties that may support its clinical use as bone defect repair. A hybrid cement was developed consisting of a chitosan oligosaccharide (COS) solution in a liquid phase and gelatin (GLT)‐containing calcium silicate powder in a