Funda-mentals of Durable-Reinforced Concrete By Mark G. Richardson

This book is a comprehensive guide focused on the durability aspects of reinforced concrete structures. It integrates materials science, structural engineering, and practical construction approaches, making it a vital resource for both academic and professional audiences in civil and structural engineering.

Key Features:

Durability-Centered Approach: The book prioritizes understanding the causes and mechanisms of deterioration in concrete structures, offering insights into preventing long-term failures.
Clear Explanation of Materials Science: It delves into the composition and behavior of concrete materials, explaining how cement chemistry, aggregates, admixtures, and reinforcement interact under various environmental conditions.
Exposure Classifications: Richardson explains environmental exposure classes and how they influence concrete mix design and reinforcement protection, aligning with standards like EN 206 and Eurocode 2.
Corrosion of Reinforcement: A central theme of the book is the corrosion of steel reinforcement. It covers electrochemical processes, chloride ingress, carbonation, and protective strategies including coatings and cathodic protection.
Design and Construction Considerations: Practical guidance is provided for engineers and builders on how to ensure durable design through correct detailing, cover depth, concrete quality control, and site practices.
Diagnostic and Remedial Techniques: The book discusses inspection methods, testing for deterioration, and strategies for extending service life through repair, maintenance, and rehabilitation.
Performance-Based Design Philosophy: Emphasis is placed on designing for a defined service life, incorporating durability into the initial planning phase of a project.
Standards and Codes Integration: Richardson aligns the content with European and international standards, aiding engineers working in global contexts.
Case Studies and Real-World Examples: Numerous examples illustrate how theoretical principles apply to actual structures, from bridges to buildings.