Reinforced and Prestressed Concrete Design to EC2 the Complete Process 2nd Edition by Eugene Obrien, Andrew Dixon, Emma Sheils – Ebook PDF Instant Download/Delivery: 9781351988483 ,1351988484
Full download Reinforced and Prestressed Concrete Design to EC2 the Complete Process 2nd Edition after payment
Product details:
ISBN 10: 1351988484
ISBN 13: 9781351988483
Author: Eugene Obrien, Andrew Dixon, Emma Sheils
Reinforced and Prestressed Concrete Design to EC2 the Complete Process 2nd Edition Table of contents:
PART I: Structural loading and qualitative design
1 Fundamentals of qualitative design
1.1 The design process
1.2 Structural materials
1.3 Basic structural members
1.4 Structural systems
2 Basic layout of concrete structures
2.1 Identification of load paths in structures
2.2 Vertical load resisting systems
2.3 Horizontal load resisting systems
2.4 Resistance of structures to incremental collapse
3 Loads and load effects
3.1 Loads and load effects
3.2 Classification of loads
3.3 Tributary areas
3.4 Permanent gravity loads on structures
3.5 Variable gravity loads on structures
3.6 Wind load on structures
3.7 Limit-state design
PART II: Preliminary analysis and design
4 Fundamentals of structural analysis
4.1 Introduction
4.2 Finding moment and shear in determinate linear elastic structures
4.3 Finding internal bending moment in indeterminate linear elastic structures
4.4 Non-linear analysis of indeterminate structures
4.5 Finding shear force, axial force and deflection
5 Applications of structural analysis to concrete structures
5.1 Introduction
5.2 Continuous beam analysis
5.3 Plastic moment redistribution
5.4 The implications of lower-bound methods
5.5 Analysis of frames
5.6 Analysis of slabs
5.7 Analysis of shear wall systems
6 Preliminary sizing of members
6.1 Introduction
6.2 Material grades
6.3 Preliminary sizing of beams
6.4 Preliminary sizing of slabs
6.5 Reinforcement in beams and slabs
6.6 Preliminary sizing of columns and walls
7 Case studies
7.1 Introduction
7.2 Case Study 1 – Simple Industrial Building
7.3 Case Study 2 – Office Building
7.4 Case Study 3 – Doughnut Shaped Office Building
7.5 Case Study 4 – Residential Building with Underground Car Park
7.6 Case Study 5 – Hotel
7.7 Case Study 6 – Grandstand
PART III: Detailed member design
8 Design of reinforced concrete members for bending
8.1 Introduction
8.2 Second moments of area (linear elastic)
8.3 Elastic deflections and crack widths
8.4 Stress/strain relationships and modes of failure
8.5 Ultimate moment capacity
8.6 Balanced design and section ductility
8.7 Anchorage length
9 Design of prestressed concrete members for bending
9.1 Introduction
9.2 Prestressing methods and equipment
9.3 Basis of design
9.4 Prestressing force and eccentricity
9.5 Losses in prestress force
9.6 Secondary effects of prestress
9.7 Ultimate moment capacity of prestressed concrete
10 Combined axial force and bending of reinforced concrete members
10.1 Introduction
10.2 Classification of compression members (columns)
10.3 Design of short members for axial force
10.4 Design of short members for axial force and uniaxial bending
10.5 Design of short members for axial force and biaxial bending
10.6 Design of slender members for axial force and uniaxial bending
10.7 Design of reinforced concrete deep beams
11 Design for shear and torsion
11.1 Introduction
11.2 Types of cracking
11.3 Types of shear failure
11.4 Shear strength of members without shear reinforcement
11.5 Shear strength of members with shear reinforcement
11.6 Design of slabs for punching shear
11.7 Torsional stresses in uncracked members
11.8 Design of members for torsion in accordance with EC2
APPENDIX A: Stiffness of structural members and associated bending moment diagrams
APPENDIX B: Reactions and bending moment diagrams due to applied load
APPENDIX C: Tributary lengths
APPENDIX D: Formulae for analysis of continuous beams (from Reynolds and Steedman 1988)
APPENDIX E: Slab design moment equations
APPENDIX F: General notation for chapters 8–11
References
Index
People also search for Reinforced and Prestressed Concrete Design to EC2 the Complete Process 2nd Edition:
reinforced and prestressed concrete design to ec2 the complete process
reinforced and prestressed concrete design to ec2
design of reinforced and prestressed concrete structures
design of reinforced concrete prestressed concrete and steel structures
Tags:
Eugene Obrien,Andrew Dixon,Emma Sheils,Reinforced,Prestressed Concrete,Complete Process