This classic and essential work has been thoroughly revised and updated in line with the requirements of new codes and standards which have been introduced in recent years, including the new Eurocode as well as up-to-date British Standards.
It provides: a general introduction; details of analysis and design of a wide range of structures an examination of design according to British and then European Codes.
Highly illustrated with numerous line diagrams, tables and worked examples, Reynolds's Reinforced Concrete Designer's Handbook is a unique resource providing comprehensive guidance that enables the engineer to analyze and design reinforced concrete buildings, bridges, retaining walls and containment structures.
Written for structural engineers, contractors, consulting engineers, local and health authorities, and utilities, this is also excellent for civil and architecture departments in universities and FE colleges.
List of Tables
Preface to the Eleventh Edtion
The Authors
Acknowledgements
Symbols and Abbreviations
Part 1 : General Information Chapter 1 : Introduction Chapter 2 : Design Criteria, Safety Factors and Loads Chapter 3 : Material Properties Chapter 4 : Structural Analysis Chapter 5 : Design of Structural Members Chapter 6 : Buildings, Bridges and Containment Structures Chapter 7 : Foundations, Ground Slabs, Retaining Walls, Culverts and Subways
Part 2 : Loads, Materials and Structures Chapter 8 : Loads Chapter 9 : Pressures due to Retained Materials Chapter 10 : Concrete and Reinforcement Chapter 11 : Cantilevers and Single-Span beams Chapter 12 : Continous Beams Chapter 13 : Slabs Chapter 14 : Framed Structures Chapter 15 : Shear Wall Structures Chapter 16 : Arches Chapter 17 : Containment Structures Chapter 18 : Foundations and retaining Walls Chapter 19 : Miscellaneous Structures and details Chapter 20 : Elastic Analysis of Concrete Sections
Part 3 : Design to British Codes Chapter 21 : Design Requirements and Safety Factors Chapter 22 : Properties of Materials Chapter 23 : Durability and Fire-Resistance Chapter 24 : Bending and Axial Force Chapter 25 : Shear and Torsion Chapter 26 : Defelection and Cracking Chapter 27 : Considerations Affecting Design Details Chapter 28: Miscellaneous Members and Detials
Part 4 : Design to European Codes Chapter 29 : Design Requirements and Safety Factors Chapter 30 : Properties of Materials Chapter 31 : Durability and Fire-Resistance Chapter 32 : Bending and Axial Force Chapter 33 : Shear and Torsion Chapter 34 : Defelection and Cracking Chapter 35 : Consideration Affecting Design Details Chapter 36 : Foundations and Earth-Retaining Walls
Appendix : Mathematical Formulae and Data
References and Further Reading
Index