Description
Transport Processes in Concrete
Authors: Cerny Robert, Rovnanikova Pavla
Language: EnglishSubjects for Transport Processes in Concrete:
Keywords
Moisture Content; Water Vapour; chemical; Water Vapour Transport; compounds; Hydration Heat; service; Liquid Moisture Content; life; Thermodiffusion Coefficient; prediction; Moisture Transport; load; Hygroscopic Range; bearing; Specific Heat Capacity; structure; Water Retention Curve; hygrothermal; Chemical Compounds Transport; stress; Ordinary Differential Equations; Pore Solution; Clinker Minerals; Cement Binder; CSH Gel; Resistance Moisture Meters; Div Grad; Alkali Silica Reaction; Modelling Transport Processes; Moisture Meters; Input File Spec; Wet Thermometer; Porous Body; Energy Balance
77.28 €
In Print (Delivery period: 14 days).
Add to cart the book of Cerny Robert, Rovnanikova PavlaPublication date: 10-2019
· 15.6x23.4 cm · Paperback
331.56 €
Subject to availability at the publisher.
Add to cart the book of Cerny Robert, Rovnanikova PavlaPublication date: 04-2002
546 p. · 15.6x23.4 cm · Hardback
Description
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Transport Processes in Concrete presents a comprehensive survey of the physical and chemical processes and transport mechanisms in concrete, and analyses their significance for the movement of heat, moisture and chemical compounds.
A critical analysis of the available mathematical models is given, and from this analysis the most suitable models to describe transport processes in concrete are selected. The authors provide an overview of methods for determining field variables and transport and storage parameters, and demonstrate the practical application of computational modelling of transport processes in the design of concrete structures.
This book presents a practical methodology for researchers and practitioners in the field of concrete technology and durability.
Preface 1. Physical and Chemical Processes in Concrete 2. Fundamentals of Transport Phenomena in Chemically Reacting Mixtures 3. Models of Heat, Moisture and Chemical Compounds Transport in Porous Materials 4. Modeling Transport Processes in Concrete 5. Experimental Methods for Determination of Field Variables and of Material Properties of Concrete 6. Examples of Practical Applications of Computational Models of Heat, Moisture and Salt Transport in the Design of Concrete Structures Appendix 1: Basic Mathematical Relations Appendix 2: Recommended Data for Material Parameters of Concrete. Subject Index