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Design and Analysis of Connections in Steel Structures
Fundamentals and Examples
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About This Book
The book introduces all the aspects needed for the safe and economic design and analysis of connections using bolted joints in steel structures. This is not treated according to any specific standard but making comparison among the different norms and methodologies used in the engineering practice, e.g. Eurocode, AISC, DIN, BS.
Several examples are solved and illustrated in detail, giving the reader all the tools necessary to tackle also complex connection design problems.
The book is introductory but also very helpful to advanced and specialist audiences because it covers a large variety of practice demands for connection design. Parts that are not taken to an advanced level are seismic design, welds, interaction with other materials (concrete, wood), and cold formed connections./p
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Yes, you can access Design and Analysis of Connections in Steel Structures by Alfredo Boracchini in PDF and/or ePUB format, as well as other popular books in Technology & Engineering & Construction & Architectural Engineering. We have over one million books available in our catalogue for you to explore.
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1
Fundamental Concepts of Joints in Design of Steel Structures
Regarding joints, the first fundamental concept the engineer must be clear about when he or she starts to design is which connections will develop moment resistance and which can be executed as simple pin joints. To do this, it is necessary to clarify the lateral load resisting system.
1.1 Pin Connections and Moment Resisting Connections
1.1.1 Safety, Performance, and Costs
Steel structures should be safe, able to perform, and be costâeffective.
They must be safe because they act as canopies, mezzanines, buildings, skyscrapers, bridges, and much more that give shelter, protect, and be welcoming to men and women. A structural collapse is extremely dangerous and likely to cause severe harm to anyone in the surrounding area.
Structures must also effectively serve their commercial purpose while efficiently and comfortably (for the users) maintaining their design features over time. These are the basic notions of serviceability limit state design specifying that, just as a nonlimiting example, deformations will not damage secondary structures or that excessive vibrations will not make users uncomfortable.
Poor performance might also decrease the structure's value and harm the property owner.
Simultaneously, the market logic requires that the structural system be economically sound and costâeffective when compared to alternatives using different materials and design. Being economically sound is a complex matter that must take into account many factors in the building design. However, the engineer must make the structure as costâeffective as possible without compromising safety and performance. The service and expertise that engineers are expected to deliver should include reducing costs while maintaining high standards of functionality and protection.
For the principles stated, the design of connections is a focal point and it must be well defined in the engineer's mind from the commencement of the project.
1.1.2 Lateral Load Resisting System
The choice of connections is related to the choice of the lateral load resisting system.
Taking a closer look at this key point, we consider these initial hypotheses: that the structure geometry is defined, that steel will be used as structural material, and that the design loads are provided. This means that the engineer can set up the analysis model with the finite element software available. However, before building the model wireframe, the engineer must have a clear vision of the lateral resisting system(s). This choice influences costs and architectural restraints.
Lateral load resisting systems can be diverse and variously combined among themselves. Each horizontal direction can have its own system, one that may be different from the other direction.
The basic lateral resisting systems (Figure 1.1) are as follows:
- Braces (bracings)
- Moment connections (portals)
- Base rigid restraints (cantilever columns or inverted pendulum)
- Connection to an existing structure or another ad hoc structure built with different materials (say a concrete staircase, masonry or concrete walls, etc.).
Figure 1.1 Lateral load resisting systems.
The structural engineer attentive to fabrication logics usually tries to adopt bracings as this will deliver maximum cost performance. The main advantages of using braces are as follows:
- The structure is easily sized against horizontal forces (mainly wind and earthquakes) allowing less weight for beams and, most of all, columns (braces take care of lateral forces and the column can work only in compression).
- Connections can roughly be just in shear or axial action and so are light and economic.
- Lateral deflection control is excellent.
- Seismic response is good (given that the necessary detailing is provided).
At the same time bracing has some disadvantages:
- It laterally obstructs the transit, limiting windows or gates.
- The architect or the owner might not like it for esthetic reasons.
This last problem might be solved by âhighlightingâ the braces and assigning architectural importance to them. Some famous examples can be found, such as landmark skyscrapers (Figure 1.2) and more âordinaryâ buildings (Figure 1.3), where the architect was able to create an interesting contrast with materials that nicely emphasize the braces.
Figure 1.2 Braces emphasized esthetically in the John Hancock Tower of Chicago.
Source: From Wikipedia; photo courtesy of âAkadavidâ, 2008.
Figure 1.3 Valorization of internal braces (InterPuls, Reggio Emilia, Italy).
The problem of transit obstruction is usually bypassed by choosing one specific bay for braces, if possible. This is done either in the middle or at the end of the building system. Horizontal braces are implemented to bring forces to the localized braces. (This book does not discuss the layout of horizontal braces. Rather it discusses one of their main functions, beyond limiting flexural torsional buckling of beams, that is, to connect unbraced bays to braced ones.)
Another method to limit the obstruction in the space occupied by the braces is to adapt their geometry to the challenges of architectural restraints using different schemes and shapes (V, invertedâV, X, K, Y, and more).
Having given the many advantages of using braces and the importance of informing the owner and the other players about this solution in order to have it approved, in many situations it is not possible to use braces, especially in both directions. As a consequence, it is necessary to use portals or base rigid connections or a combination of them, if not different additional schemes such as shear steel walls or other concrete or composite systems that are outside the scope of this book.
The main advantage of using portals and rigid bases is what made braces undesirable; that is, there are no obstacles in fully exploiting all the space of the bays. In addition, moment...
Table of contents
- Cover
- Table of Contents
- Copyright
- Dedication
- Preface
- About the Author
- Acknowledgments
- List of Abbreviations
- Chapter 1: Fundamental Concepts of Joints in Design of Steel Structures
- Chapter 2: Fundamental Concepts of the Behavior of Steel Connections
- Chapter 3: Limit States for Connection Components
- Chapter 4: Connection Types: Analysis and Calculation Examples
- Chapter 5: Choosing the Type of Connection
- Chapter 6: Practical Notes on Fabrication
- Chapter 7: Connection Examples
- Index
- End User License Agreement