Understanding the Tensile Properties of Concrete (2^nd Ed.)
In Statics and Dynamics
Woodhead Publishing Series in Civil and Structural Engineering Series

Understanding the Tensile Properties of Concrete: In Statistics and Dynamics, Second Edition summarizes recent research on this important subject. After an introduction to concrete, the book is divided into two distinct parts. Part One starts with a summary chapter on the most important parameters that affect the tensile response of concrete. Chapters show how multiscale modeling is used to relate concrete composition to tensile properties. Part Two focuses on dynamic response and starts with an introduction to the different regimes of dynamic loading, ranging from low frequency loading by wind or earthquakes to extreme dynamic conditions due to explosions and ballistic impacts. Following chapters review dynamic testing techniques and devices that deal with the various regimes of dynamic loading. Later chapters highlight the dynamic behavior of concrete from different viewpoints, and the book ends with a chapter on practical examples of how detailed knowledge on tensile properties is used by engineers in structural applications. Drawing on the work of some of the leading experts in the field, the book is fully updated and will be a valuable reference for civil and structural engineers as well as those researching this important material.

1. Introduction to concrete 2. Concrete in static tensile loading 3. Modelling the effect of material composition on the tensile properties of concrete 4. Modelling moisture transport in intact and fractured concrete 5. Modelling the response of concrete structures to dynamic loading 6. Dynamic test devices for analyzing the tensile properties of concrete 7. Response mechanisms of concrete under impulsive tensile loading 8. Modelling the dynamic response of concrete with mesoscopic heterogeneity 9. Mesoscopic modeling of concrete under different moisture conditions and loading rates 10. Modelling the response of concrete structures from strain rate effects to shock induced loading 11. Understanding the dynamic response of concrete to loading practical examples

• Presents recent research in the areas of understanding the response mechanisms of concrete under tensile conditions
• Provides a summary of the most important parameters that affect the tensile response of concrete and shows how multi scale modeling is used to relate concrete composition to tensile properties
• Highlights the dynamic behavior of concrete from different viewpoints and provides practical examples of how detailed knowledge on tensile properties is used by engineers in structural applications
• Presents recent advancements in tensile strength determination under static and dynamic loading conditions for concrete structures
• Covers HSFRC and FRHSC
• Presents new work on non-local models and damage modeling, the dynamic increase factor for tensile strength, fracture energy and anchors, and slop stabilization