Relationship between particle size distribution and compressive strength in portland cement

Previous work has shown that, for a series of experimental autoclaved aerated concretes with porosities ranging from O.48 to 0.78, compressive strength is linearly related to the solid/pore volume ratio determined by helium pycnometry. In the work described here, this type of relationship has been

The experimental investigation is part of a wider research programme, addressed to correlating the modifications in the physical microstructure, due to gypsum addition, with the mechanical behaviour of cement mortars. This fast paper reports on the examination of a series of mortars manufactured wit

A porous material is assumed to be made up of many porous bodies which contain various size pores and are parallelly connected. The quantitative relationship between strength and pore-size distribution of porous materials was derived based on the Griffith's theory and the theory of composite, and th

In as series of cements made out of clinkers with variable C3A/C4AF ratios and containing different amounts of gypsum, the strength development and the composition of the hydrated material were studied. For a single clinker composition the obtained strength appears to be just a function of porosity.

The relationship between the mechanical properties and morphology of polyhexamethylene carbonate diol (PHMCD) toughened epoxy resin was investigated. The parameters describing the morphology (e.g., average diameter of particles and volume fraction of dispersed phase, etc.) were determined through SE