Where to Find Design of Steel Structures by S.S Bhavikatti PDF Online
Bhavikatti Design of Steel Structures PDF Download
Are you looking for a comprehensive and practical guide on how to design steel structures? Do you want to learn from an experienced and reputed author who has taught and written extensively on this subject? If yes, then you might be interested in downloading the book "Design of Steel Structures" by S.S. Bhavikatti. In this article, we will give you an overview of what this book is about, what are its contents, and how you can download it for free.
bhavikatti design of steel structures pdf download
Introduction
What is steel structure design?
Steel structure design is the process of designing and constructing buildings, bridges, towers, and other structures using steel as the main material. Steel is a strong, durable, and versatile material that can be shaped into various forms and sizes. Steel structures have many advantages over other types of structures, such as high strength-to-weight ratio, resistance to fire, corrosion, and earthquakes, ease of fabrication and erection, and recyclability.
Who is S.S. Bhavikatti?
S.S. Bhavikatti is a former professor and dean of civil engineering at SDM College of Engineering and Technology, Dharwad, India. He has over 40 years of teaching experience and has authored more than 60 books on various topics of civil engineering. He has also guided many research students and published more than 120 technical papers in national and international journals and conferences. He is a fellow of the Institution of Engineers (India) and a life member of several professional bodies.
What are the features of his book?
"Design of Steel Structures" by S.S. Bhavikatti is a comprehensive and practical book that covers the theory and practice of steel structure design in accordance with the latest Indian standard code IS 800-2007. The book has the following features:
It explains the basic concepts and principles of structural analysis and design in a simple and lucid manner.
It provides numerous solved examples and practice problems to illustrate the application of the code provisions and design methods.
It covers all types of steel structures, such as tension members, compression members, beams, plate girders, gantry girders, roof trusses, industrial buildings, multistoreyed buildings, and plastic analysis and design.
It includes appendices that contain properties of rolled steel sections, design aids for reinforced concrete and steel structures, and conversion factors.
It is suitable for undergraduate and postgraduate students of civil engineering, as well as practicing engineers and consultants.
Contents of the book
Chapter 1: Introduction
This chapter introduces the scope and objectives of steel structure design, the advantages and disadvantages of steel as a structural material, the types and grades of steel, the fabrication and erection of steel structures, the quality control and inspection of steel structures, and the safety and serviceability aspects of steel structures.
Chapter 2: Loads and Load Combinations
This chapter discusses the types and classification of loads that act on steel structures, such as dead loads, live loads, wind loads, earthquake loads, temperature loads, and impact loads. It also explains how to combine these loads to obtain the design loads using the load factor method and the limit state method.
Chapter 3: Connections
This chapter deals with the design of connections between steel members, such as riveted connections, bolted connections, welded connections, and eccentric connections. It covers the types and specifications of rivets, bolts, and welds, the failure modes and strength criteria of connections, the design procedures and calculations for various types of connections, and the detailing and drawing of connections.
Chapter 4: Tension Members
This chapter covers the design of tension members, such as rods, bars, wires, cables, angles, channels, and built-up sections. It explains the types and behavior of tension members, the effective net area and gross area of tension members, the slenderness ratio and buckling strength of tension members, the design criteria and calculations for tension members under axial load and combined load, and the detailing and drawing of tension members.
Chapter 5: Compression Members
This chapter covers the design of compression members, such as columns, struts, ties, braces, and built-up sections. It explains the types and behavior of compression members, the effective length and slenderness ratio of compression members, the buckling modes and strength criteria of compression members under axial load and combined load, the design procedures and calculations for compression members using Euler's formula, Perry's formula, Rankine's formula, IS code formula, and interaction formulae, and the detailing and drawing of compression members.
Chapter 6: Beams
This chapter covers the design of beams, such as rolled sections (I-sections, T-sections), built-up sections (plate girders), composite sections (concrete-steel), curved beams (arches), tapered beams (cantilevers), continuous beams (frames), etc. It explains the types and behavior of beams under bending moment, shear force, torsion, and combined actions. It also explains the concepts of shear stress, bending stress, shear flow, shear center, plastic section modulus, and plastic hinge. It covers the design criteria and calculations for beams using elastic theory, plastic theory, and IS code provisions. It also covers the detailing and drawing of beams.
Chapter 7: Plate Girders
This chapter covers the design of plate girders, which are built-up sections made of plates and angles welded or bolted together. It explains the components and behavior of plate girders, such as web, flange, stiffener, bearing stiffener, intermediate stiffener, curtailment stiffener, etc. It covers the design criteria and calculations for plate girders under bending moment, shear force, torsion, and combined actions. It also covers the web buckling, web crippling, flange buckling, flange local buckling, and lateral torsional buckling of plate girders. It also covers the detailing and drawing of plate girders.
Chapter 8: Gantry Girders
This chapter covers the design of gantry girders, which are horizontal beams that support cranes or hoists in industrial buildings. It explains the types and functions of gantry girders, such as single girder, double girder, underhung girder, etc. It covers the loads and load combinations that act on gantry girders, such as dead load, live load, crane load, wind load, impact load, etc. It covers the design criteria and calculations for gantry girders under bending moment, shear force, torsion, and combined actions. It also covers the lateral stability and deflection of gantry girders. It also covers the detailing and drawing of gantry girders.
Chapter 9: Roof Trusses
This chapter covers the design of roof trusses, which are triangular frames that support the roof covering and transfer the loads to the columns or walls. It explains the types and components of roof trusses, such as king post truss, queen post truss, fink truss, howe truss, pratt truss, fan truss, etc. It covers the loads and load combinations that act on roof trusses, such as dead load, live load, wind load, snow load, etc. It covers the design criteria and calculations for roof trusses using the method of joints and the method of sections. It also covers the deflection and camber of roof trusses. It also covers the detailing and drawing of roof trusses.
Chapter 10: Industrial Buildings
This chapter covers the design of industrial buildings, which are structures that house industrial activities such as manufacturing, processing, storage, etc. It explains the types and functions of industrial buildings, such as factory buildings, warehouse buildings, workshop buildings, etc. It covers the loads and load combinations that act on industrial buildings, such as dead load, live load, crane load, wind load, earthquake load, etc. It covers the design criteria and calculations for industrial buildings using the portal frame method, the rigid frame method, and the space frame method. It also covers the design of crane girders, purlins, sag rods, bracings, and foundations for industrial buildings. It also covers the detailing and drawing of industrial buildings.
Chapter 11: Multistoreyed Buildings
This chapter covers the design of multistoreyed buildings, which are structures that have more than one floor level above the ground. It explains the types and functions of multistoreyed buildings, such as residential buildings, commercial buildings, office buildings, etc. It covers the loads and load combinations that act on multistoreyed buildings, such as dead load, live load, wind load, earthquake load, etc. It covers the design criteria and calculations for multistoreyed buildings using the moment resisting frame method, the braced frame method, and the shear wall method. It also covers the design of beams, columns, slabs, staircases, and foundations for multistoreyed buildings. It also covers the detailing and drawing of multistoreyed buildings.
Chapter 12: Plastic Analysis and Design
This chapter covers the plastic analysis and design of steel structures, which is a method that considers the redistribution of moments and forces after the formation of plastic hinges in some members. It explains the concepts and principles of plastic analysis and design, such as plastic moment capacity, shape factor, collapse mechanism, static equilibrium method, virtual work method, etc. It covers the plastic analysis and design of beams, frames, and continuous beams under various loading conditions. It also covers the advantages and limitations of plastic analysis and design.
Appendix A: Properties of Rolled Steel Sections
This appendix contains tables that show the properties of various types of rolled steel sections used in steel structure design, such as angles, channels, I-sections, T-sections, hollow sections, etc. The properties include area, weight per meter, depth, width, thickness, radius of gyration, moment of inertia, section modulus, etc.
Appendix B: Design Aids for Reinforced Concrete to IS 456-2000
This appendix contains tables and charts that provide design aids for reinforced concrete structures according to IS 456-2000 code. The design aids include stress-strain curves for concrete and steel, permissible stresses for concrete and steel, coefficients for moment distribution method, coefficients for slope deflection method, coefficients for moment area method, coefficients for fixed end moments, coefficients for shear force distribution factor method, of reinforced concrete structures, and coefficients for wind load distribution factor method.
Appendix C: Design Aids for Steel Structures to IS 800-2007
This appendix contains tables and charts that provide design aids for steel structures according to IS 800-2007 code. The design aids include partial safety factors, design strength of steel, effective slenderness ratio, buckling class, design strength of bolted and welded connections, design strength of tension members, design strength of compression members, design strength of beams, design strength of plate girders, design strength of gantry girders, design strength of roof trusses, etc.
How to download the book?
If you are interested in downloading the book "Design of Steel Structures" by S.S. Bhavikatti, you have several options to choose from. Here are some of the websites that offer free PDF downloads of this book:
Option 1: Internet Archive
Internet Archive is a non-profit digital library that provides free access to millions of books, movies, music, and other media. You can download the book "Design of Steel Structures" by S.S. Bhavikatti from this link: https://archive.org/details/DesignOfSteelStructuresBhavakkatiByEasyEngineering.net. You can choose from various formats such as PDF, EPUB, Kindle, Text, etc. You can also read the book online using the Internet Archive BookReader.
Option 2: Documents and E-books
Documents and E-books is a website that allows you to download free PDF documents and e-books on various topics. You can download the book "Design of Steel Structures" by S.S. Bhavikatti from this link: https://idoc.pub/documents/design-of-steel-structures-by-ss-bhavikatti-6nq9kqzzv1lw. You can also view the book online using the PDF viewer.
Option 3: Scribd
Scribd is a digital library that offers unlimited access to books, audiobooks, magazines, podcasts, and more. You can download the book "Design of Steel Structures" by S.S. Bhavikatti from this link: https://www.scribd.com/document/386995294/Design-of-Steel-Structures-by-S-S-Bhavikatti. However, you need to sign up for a free trial or a paid subscription to access the full book. You can also read the book online using the Scribd reader.
Conclusion
In this article, we have given you an overview of what the book "Design of Steel Structures" by S.S. Bhavikatti is about, what are its contents, and how you can download it for free. We hope that this article has been helpful and informative for you. If you want to learn more about steel structure design in accordance with IS 800-2007 code, we recommend that you download and read this book.
FAQs
Here are some frequently asked questions about the book "Design of Steel Structures" by S.S. Bhavikatti:
Q: Who is the author of this book?
A: The author of this book is S.S. Bhavikatti, a former professor and dean of civil engineering at SDM College of Engineering and Technology, Dharwad, India.
Q: What is the purpose of this book?
A: The purpose of this book is to provide a comprehensive and practical guide on how to design steel structures in accordance with IS 800-2007 code.
Q: How many chapters are there in this book?
A: There are 12 chapters in this book, covering all types of steel structures such as tension members, compression members, beams, plate girders, gantry girders, roof trusses, industrial buildings, multistoreyed buildings, and plastic analysis and design.
Q: How can I download this book for free?
A: You can download this book for free from various websites such as Internet Archive, Documents and E-books, and Scribd.
Q: Is this book suitable for students and professionals?
A: Yes, this book is suitable for undergraduate and postgraduate students of civil engineering, as well as practicing engineers and consultants.
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