Durability of Concrete Design and Construction Modern Concrete Technology Series
Auteurs : Alexander Mark, Bentur Arnon, Mindess Sidney
This book provides an up-to-date survey of durability issues, with a particular focus on specification and design, and how to achieve durability in actual concrete construction. It is aimed at the practising engineer, but is also a valuable resource for graduate-level programs in universities. Along with background to current philosophies it gathers together in one useful reference a summary of current knowledge on concrete durability, includes information on modern concrete materials, and shows how these materials can be combined to produce durable concrete. The approach is consistent with the increasing focus on sustainability that is being addressed by the concrete industry, with the current emphasis on ?design for durability?.
Introduction. Concrete as a Modern Construction Material. Materials for Concretes in Relation to Durability. Concrete Deterioration. Durability Specifications, Limit States and Modeling.Durability Indicators (Indexes) and Their Use in Engineering Practice. Durability Testing: Transport Properties. Durability Testing: Degradation Mechanisms. Design of Concrete Mixtures for Durability. Durability and Construction.
Date de parution : 06-2017
15.6x23.4 cm
Date de parution : 06-2017
15.6x23.4 cm
Thème de Durability of Concrete :
Mots-clés :
ASTM G109 Test; portland; Sea Water; cement; Moisture Content; sulfate; Condensed Silica Fume; attack; ACI Material Journal; fly; Acid Attack; ash; Silica Fume; ground; Ground Granulated Blast Furnace Slag; granulated; ASTM C1202; blast; Fib Model Code; furnace; ASTM C1012 Test; Service Life Prediction Models; Portland Cement; ASCE Journal; Minimum Cover Depth; Supplementary Cementitious Materials; Pore Solution Composition; Mixing Water Content; Coulomb Limitation; Durability Indicators; Service Life Design; Measure Gas Permeability; Critical Chloride Content; Limit State Equation; Cement Grains