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Reinforced Concrete Design (RC) is performed mostly by Limit State method throughout the globe. This book covers fundamental concepts and principles of RC design developing the topics from the basic theories and assumptions.
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Reinforced Concrete Design (RC) is performed mostly by Limit State method throughout the globe. This book covers fundamental concepts and principles of RC design developing the topics from the basic theories and assumptions.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 400
- Erscheinungstermin: 26. Juni 2024
- Englisch
- Abmessung: 254mm x 178mm
- Gewicht: 453g
- ISBN-13: 9781032458892
- ISBN-10: 1032458895
- Artikelnr.: 70147964
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 400
- Erscheinungstermin: 26. Juni 2024
- Englisch
- Abmessung: 254mm x 178mm
- Gewicht: 453g
- ISBN-13: 9781032458892
- ISBN-10: 1032458895
- Artikelnr.: 70147964
Santanu Bhanja is currently Professor and former Head-of-the-Department of Civil Engineering, National Institute of Technical Teachers' Training and Research, Kolkata under Ministry of Education, Govt of India. He had his civil engineering education from Jadavpur University, Kolkata and IIT, Kharagpur, West Bengal. He has served Bengal Engineering College (DU), Shibpur, as a Lecturer and then as an Assistant Professor at the Bengal Engineering and Science University, Shibpur (presently IIEST, Shibpur) for about a decade before taking up the present assignment. Prof Bhanja has also worked in the industry for about seven years mostly as a Design Engineer. Besides teaching, he has provided technical consultancy as a Proof-Consultant for the private and govt sectors regarding the design of several prestigious projects. He has authored several research papers which have been published in Journals of international repute and presented numerous papers in National and International Conferences and Seminars. Prof Bhanja has more than Three decades of experience with concrete as a researcher, teacher for students at the under-graduate, post-graduate level and beyond and as a trainer of the technical faculty members of degree and Diploma level Engineering Institutions. He has organized several Workshops, Seminars, Webinars and Training programs in the field of concrete.
Preface
About the Author
Acknowledgements
Chapter 1
Introduction
Chapter 2
Basic Material - Concrete
Chapter 3
General Overview of IS:456-2000 and IRC:112-2020 - General Provisions of
Indian Standards on Concrete
Chapter 4
Provisions of Standards or Codes of Practice on Reinforcement:
IS:1786-2008, IS:456-2000, SP:16-1980, IRC:112-2020 and Eurocode-2
Chapter 5
General Consideration for Analysis of RC structures
Chapter 6
General Considerations for Design of RC Structures
Chapter 7
Philosophy of Reinforced Concrete Design
Chapter 8
Working Stress Method
Chapter 9
Limit State Method as per IS:456
Chapter 10
Limit State of Collapse in Flexure as per IS:456
Chapter 11
Limit State of Collapse in Compression as per IS:456
Chapter 12
Limit State of Collapse in Shear
Chapter 13
Development Length of Reinforcement in RC sections
Chapter 14
Limit State of Serviceability
Chapter 15
Limit State Method as per IRC:112-2020 for RC Sections
Chapter 16
Design beyond Limit State
Chapter 17
Ductility Design
Chapter 18
Earthquake-Resistant Design of Structures
Chapter 19
Design of Shear Walls Following the Fundamental Principles of Limit State
Method as per Indian and International Standards
Chapter 20
Design of Staircases
Chapter 21
Design of Foundations
About the Author
Acknowledgements
Chapter 1
Introduction
Chapter 2
Basic Material - Concrete
Chapter 3
General Overview of IS:456-2000 and IRC:112-2020 - General Provisions of
Indian Standards on Concrete
Chapter 4
Provisions of Standards or Codes of Practice on Reinforcement:
IS:1786-2008, IS:456-2000, SP:16-1980, IRC:112-2020 and Eurocode-2
Chapter 5
General Consideration for Analysis of RC structures
Chapter 6
General Considerations for Design of RC Structures
Chapter 7
Philosophy of Reinforced Concrete Design
Chapter 8
Working Stress Method
Chapter 9
Limit State Method as per IS:456
Chapter 10
Limit State of Collapse in Flexure as per IS:456
Chapter 11
Limit State of Collapse in Compression as per IS:456
Chapter 12
Limit State of Collapse in Shear
Chapter 13
Development Length of Reinforcement in RC sections
Chapter 14
Limit State of Serviceability
Chapter 15
Limit State Method as per IRC:112-2020 for RC Sections
Chapter 16
Design beyond Limit State
Chapter 17
Ductility Design
Chapter 18
Earthquake-Resistant Design of Structures
Chapter 19
Design of Shear Walls Following the Fundamental Principles of Limit State
Method as per Indian and International Standards
Chapter 20
Design of Staircases
Chapter 21
Design of Foundations
Preface
About the Author
Acknowledgements
Chapter 1
Introduction
Chapter 2
Basic Material - Concrete
Chapter 3
General Overview of IS:456-2000 and IRC:112-2020 - General Provisions of
Indian Standards on Concrete
Chapter 4
Provisions of Standards or Codes of Practice on Reinforcement:
IS:1786-2008, IS:456-2000, SP:16-1980, IRC:112-2020 and Eurocode-2
Chapter 5
General Consideration for Analysis of RC structures
Chapter 6
General Considerations for Design of RC Structures
Chapter 7
Philosophy of Reinforced Concrete Design
Chapter 8
Working Stress Method
Chapter 9
Limit State Method as per IS:456
Chapter 10
Limit State of Collapse in Flexure as per IS:456
Chapter 11
Limit State of Collapse in Compression as per IS:456
Chapter 12
Limit State of Collapse in Shear
Chapter 13
Development Length of Reinforcement in RC sections
Chapter 14
Limit State of Serviceability
Chapter 15
Limit State Method as per IRC:112-2020 for RC Sections
Chapter 16
Design beyond Limit State
Chapter 17
Ductility Design
Chapter 18
Earthquake-Resistant Design of Structures
Chapter 19
Design of Shear Walls Following the Fundamental Principles of Limit State
Method as per Indian and International Standards
Chapter 20
Design of Staircases
Chapter 21
Design of Foundations
About the Author
Acknowledgements
Chapter 1
Introduction
Chapter 2
Basic Material - Concrete
Chapter 3
General Overview of IS:456-2000 and IRC:112-2020 - General Provisions of
Indian Standards on Concrete
Chapter 4
Provisions of Standards or Codes of Practice on Reinforcement:
IS:1786-2008, IS:456-2000, SP:16-1980, IRC:112-2020 and Eurocode-2
Chapter 5
General Consideration for Analysis of RC structures
Chapter 6
General Considerations for Design of RC Structures
Chapter 7
Philosophy of Reinforced Concrete Design
Chapter 8
Working Stress Method
Chapter 9
Limit State Method as per IS:456
Chapter 10
Limit State of Collapse in Flexure as per IS:456
Chapter 11
Limit State of Collapse in Compression as per IS:456
Chapter 12
Limit State of Collapse in Shear
Chapter 13
Development Length of Reinforcement in RC sections
Chapter 14
Limit State of Serviceability
Chapter 15
Limit State Method as per IRC:112-2020 for RC Sections
Chapter 16
Design beyond Limit State
Chapter 17
Ductility Design
Chapter 18
Earthquake-Resistant Design of Structures
Chapter 19
Design of Shear Walls Following the Fundamental Principles of Limit State
Method as per Indian and International Standards
Chapter 20
Design of Staircases
Chapter 21
Design of Foundations