Chloride-induced corrosion is the most important durability issue of reinforced concrete structures, and the prediction and prevention of chloride-induced corrosion has attracted considerable interest all over the world.
Given that chloride penetrates through the concrete cover, the issues concerning its transport are crucial. These include testing methods, prediction, and the prevention of ingress. During the transport process, physical and chemical interaction occurs between chloride and cement hydrates, which in turn affects the further transport, so the transport of chloride and these interactions are closely related, and underpin our understanding of chloride-induced corrosion in RC structures.
This book provides in-depth discussion of chloride transport and its interaction in cement-based materials, and reviews and summarizes the state of the art. The mechanisms and testing methods for chloride transport, chemical interactions of chloride with cement hydrates, chloride binding isotherms, measurement of penetration depths, factors affecting chloride transport, and modelling of chloride transport are discussed in detail. This book serves as a reference for researchers or engineer, and a textbook for graduate students.
Introduction. Mechanisms of chlorides transport in cement-based materials. Chemical interactions between chlorides and cement-based materials. Chloride binding isotherm of cement-based materials and its effects. Testing methods for chlorides transport in cement-based materials. Measurement of penetration depth of chloride in cement-based materials using AgNO3. Factors affecting chlorides transport in cement-based materials. Modelling/simulation of chloride transport in cement-based materials.