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9780750650595

Concrete Design to EN 1992, Second Edition

by ;
  • ISBN13:

    9780750650595

  • ISBN10:

    0750650591

  • Edition: 2nd
  • Format: Nonspecific Binding
  • Copyright: 2006-01-23
  • Publisher: CRC Press

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Summary

The transition from national standards for concrete structural design to Eurocode EN 1992 is the biggest change to concrete design for decades. This new edition of Concrete Design explains the key differences between BS8110 and EN1992, and teaches the fundamentals of the design of concrete structures to comply with the Eurocodes. With many illustrations and worked examples, this accessible textbook teaches the essentials of concrete design to EN1992 to students and professionals alike. * Full coverage of the concrete structural Eurocode * Detailed worked examples and tutorial problems * Analysis of the key changes from the old national standards

Table of Contents

Preface ix
Acknowledgements xi
Principal Symbols xiii
General
1(17)
Description of concrete structures
1(2)
Development and manufacture of reinforced concrete
3(2)
Development and manufacture of steel
5(1)
Structural design
6(5)
Production of reinforced concrete structures
11(5)
Site conditions
16(2)
Mechanical Properties of Reinforced Concrete
18(14)
Variation of material properties
18(1)
Characteristic strength
18(2)
Design strength
20(1)
Stress--strain relationship for steel
21(2)
Stress-strain relationship for concrete
23(1)
Other important material properties
24(6)
Testing of reinforced concrete materials and structures
30(2)
Actions
32(7)
Introduction
32(1)
Actions varying in time
32(2)
Actions with spatial variation
34(1)
Design envelopes
35(2)
Other actions
37(2)
Analysis of the Structure
39(26)
General philosophy for analysis of the structure
39(1)
Behaviour under accidental effects
40(6)
Frame imperfections
46(2)
Frame classification
48(2)
Frame analysis
50(5)
Column loads
55(1)
Redistribution
55(7)
Plastic analysis
62(3)
Durability, Serviceability and Fire
65(40)
Mechanisms causing loss of durability
65(5)
Serviceability limit states
70(23)
Fire
93(12)
Reinforced Concrete Beams in Flexure
105(28)
Behaviour of beams in flexure
107(2)
Singly reinforced sections
109(6)
Doubly reinforced sections
115(4)
Flanged beams
119(8)
High strength concrete
127(4)
Design notes
131(1)
Effective spans
132(1)
Shear and Torsion
133(43)
Shear resistance of reinforced concrete
133(2)
Members not requiring shear reinforcement
135(2)
Members requiring shear reinforcement
137(14)
Shear resistance of solid slabs
151(13)
Shear resistance of prestressed concrete beams
164(4)
Torsional resistance of reinforced and prestressed concrete
168(8)
Anchorage, Curtailment and Member Connections
176(22)
Anchorage
176(3)
Bar splices
179(2)
Curtailment of reinforcing bars
181(3)
Member connections
184(14)
Reinforced Concrete Columns
198(17)
General description
198(1)
Theory for axially loaded short columns
199(1)
Theory for a column subject to an axial load and bending moment about one axis
200(1)
Theory for columns subject to axial load and biaxial bending
201(1)
Types of forces acting on a column
202(1)
Basic theory for second order forces from buckling
203(3)
Summary of the design method for columns subject to axial load and bending
206(9)
Reinforced Concrete Slabs
215(54)
Types of slab
215(1)
Design philosophies
216(1)
Plastic methods of analysis
217(1)
Johansen yield line method
218(28)
Hillerborg strip method
246(3)
Slab design and detailing
249(9)
Beam and slab assemblies
258(7)
Flat slabs
265(2)
Waffle slabs
267(2)
Foundations and Retaining Walls
269(52)
Types of foundation
269(2)
Basis of design
271(3)
Bearing pressures under foundations
274(5)
Calculation of internal stress resultants in pad foundations
279(2)
Pile caps
281(5)
Retaining walls
286(35)
Prestressed Concrete
321(36)
Bending resistance of prestressed concrete members at ultimate load
321(6)
Bending resistance of a prestressed concrete beam at service load
327(13)
Loss of prestress
340(8)
Anchorage of tendons
348(9)
Annex 357(16)
Index 373

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