Polymer impregnated concrete
A polymer impregnated concrete is produced via a process whereby an existing hardened concrete (structure or factory component) is dried […]
The purpose of this book is to bring together a series of reviews on topics of current relevance to the durability of concrete and cement-based composites. One might reasonably ask why such a book is now believed to be needed as concrete and related materials have been used with outstanding success in major construction projects for well over two thousand years. Indeed numerous ancient concrete structures, such as the Pantheon in Rome, and masonry structures with mortar joints, such as the Pont du Gard Aqueduct near NõÃmes in southern France (see Fig. 1.1), have survived to the present day in excellent states of preserva- tion. These and other examples of Roman construction works incorporating hydraulic cements made from lime and volcanic earth (or similar vitrified alumino-silicates, known collectively as pozzolanas, after Pozzuoli near Naples where a natural source of such material exists) have shown remarkable dur- ability even where they have been exposed to damp, aggressive environments. An impressive illustration was provided by Davey (1974) whose photograph of part of a Roman breakwater that had been exposed to the sea near Naples for two millennia (reproduced in Fig. 1.2), demonstrates that the mortar joints had endured far more successfully than the now heavily eroded stone blocks which they had been connecting.
A polymer impregnated concrete is produced via a process whereby an existing hardened concrete (structure or factory component) is dried […]
The design and analysis of some types of structure require the knowledge of volume changes in concrete members subjected to
The simple model of microstructure development outlined in Section 10.2.3 suggests a mechanism whereby the cement and polymer particles cure
The two types, plastic settlement and plastic shrinkage cracks, both occur between one and eight hours after placing of the
The aim of this chapter is to provide information on aspects of the internal characteristics of concrete that relate to
Physical and chemical characteristics of cement composites Read Post »
The classical measure of permeation capacity in concrete is permeability, i.e. the measure of the rate of mass transfer of
Permeation capacity as measured by water permeability Read Post »
Several different measures of permeation capacity involve the ability of concrete specimens to transmit direct current. Of these methods, the
Permeation capacity as measured by DC electrical conductivity Read Post »
Much of the focus of research on electrical property measurements of concretes (or more commonly, cement pastes) has involved the
Permeation capacity measurements derived from AC complex impedance spectra Read Post »
Measurements of water vapor transport through concrete has been mentioned briefly in the introduction of the concept of permeation capacity,
Permeation capacity as measured by water vapor transport Read Post »