Steel Connection Analysis
eBook - ePub

Steel Connection Analysis

  1. English
  2. ePUB (mobile friendly)
  3. Available on iOS & Android
eBook - ePub

Steel Connection Analysis

About this book

First book to discuss the analysis of structural steel connections by Finite Element Analysis—which provides fast, efficient, and flexible checking of these vital structural components

The analysis of steel structures is complex—much more so than the analysis of similar concrete structures. There are no universally accepted rules for the analysis of connections in steel structures or the analysis of the stresses transferred from one connection to another. This book presents a general approach to steel connection analysis and check, which is the result of independent research that began more than fifteen years ago. It discusses the problems of connection analysis and describes a generally applicable methodology, based on Finite Element Analysis, for analyzing the connections in steel structures. That methodology has been implemented in software successfully, providing a fast, automatic, and flexible route to the design and analysis of the connections in steel structures. 

Steel Connection Analysis explains several general methods which have been researched and programmed during many years, and that can be used to tackle the problem of connection analysis in a very general way, with a limited and automated computational effort. It also covers several problems related to steel connection analysis automation.

  • Uses Finite Element Analysis to discuss the analysis of structural steel connections
  • Analysis is applicable to all connections in steel structures
  • The methodology is the basis of the commercially successful CSE connection analysis software  
  • Analysis is fast and flexible

Structural engineers, fabricators, software developing firms, university researchers, and advanced students of civil and structural engineering will all benefit from Steel Connection Analysis.

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Information

Publisher
Wiley-Blackwell
Year
2018
Print ISBN
9781119303466
Edition
1
eBook ISBN
9781119303534
Topic
Technology & Engineering
Subtopic
Civil Engineering
Index
Technology & Engineering

1
Introduction

1.1 An Unsolved Problem

Steel connection analysis and checking is one of the most complex problems in structural engineering, and even though we use very powerful computing tools, it is still generally done using very simplistic approaches.
From the point of view of a typical structural engineer, the problem to solve is to design and check nodes,1 not single connections, i.e. a number of connections between a number of different members – maybe tens or even hundreds of load combinations, inclined member axes, and generic stress states. In a typical 3D structure there may be several tens of such nodes (Figure 1.1), or maybe even hundreds, which may be similar, or may be different from one another; identifying nodes that are equal is one of the problems that the designer has to face in order to reduce the number of different possible solutions, and in order to get a rational design. However, this problem of detecting equal nodes has not been sufficiently researched, and there are currently no tools that are able to properly solve this issue.
3D Structure of connected beams with nodes.
Figure 1.1 A possible node of a 3D structure.
If posed with the due generality, the problem of checking 3D nodes of real structures has not been solved by automatic computing tools. Also, because a general method of tackling all these problems is apparently still lacking, usually a few “cooking recipes” have been used to solve a limited number of typical, recurring (2D assimilated) nodes. Indeed, it often happens that true, real world nodes have to be analyzed by such recipes, despite the fact that the basic hypotheses needed to apply these recipes do not always hold true. This poses a serious problem because although these “cooking recipes” have been widely used, in the past few years they have been applied to 3D structures designed using computer tools, in the non‐linear range, perhaps in seismic areas, and with the aim of reducing the weight of steel.
The effects of such oversimplification have already been seen in many structures where steel connections have failed, especially in seismic areas (e.g. Booth 2014), but even in non‐seismic areas (e.g. White et al. 2013, Bruneau et al. 2011). Generally speaking, it is well known that connections are one of the most likely points of weakness of steel structures, one of the most cumbersome to design – indeed one of the least designed – and one of the least software‐covered in structural engineering.
This book describes the research efforts made by the author since 1999 to tackle these issues, and it proposes a general set of methods to deal with these problems (see Section 1.6 for more details).

1.2 Limits of Traditional Approaches

1.2.1 Generality

Traditional approaches to connection design have been extensively used for many years, and are still widely used. Usually they imply several simplifying hypotheses, which are needed in order to apply them in by hand computation. The equivalent of by hand computation is today a “simple spreadsheet” often written very quickly for each given job. As with every other form of calculus, they are prone to serious errors (slips and lapses – see Reason 1990 for a general study of human error, and Rugarli 2014 for a discussion on validation of structural models; for spreadsheets programming errors, see the European Spreadsheet Risk Interest Group web site).
There are several possible design situations where the use of traditional approaches is completely justified. These approaches are rooted in the traditional 1D or 2D design. The use of 2D design needed intense by hand computation or the use of graphic tools up to the 1970s; at that time there was no need and no specific legal requirements for checking tens or may be hundreds load combinations, and safety factors were much higher than those used nowadays. When dealing with such situations, today – for example simple determined structures under elementary actions – the use of traditional approaches is still useful. So, it would not be sensible to exclude them completely. Indeed, they will never lose their utility, especially as one of several possible cross‐checking tools that can be used to detect possibly unsound designs.
However, in current design practice, we almost always use 3D methods of analysis applied to highly redundant structures, sometimes in the plastic range, automatic computerized checks, with minimum weight often being a must, and safety factors have been reduced to their minimum. (Currently the material safety factor for limit state design is 1.0 in Eurocode 3. The load safety factor for dead loads is lower than that valid for live loads. The maximum loads are applied with a reduction factor ψ to take into account the reduced probability of contemporary occurrence. All these practices were not, as such, in traditional designs, which means that they used higher safety factors.)
In summary, while traditional design of structures was often simple, 2D, and was designed by making extensive use of safe‐side envelopes both for loads and for resistance, today things are not so easy; indeed, they are much more complex. While virtually all design steps have been semi‐automated (modeling, checking members, drawing them, and even cutting them into true 3D pieces by means of computer numerical control, CNC), the checking of connections has remained at the traditional level, more or less upgraded to the modern era by the use of spreadsheets and dedicated, ad hoc software.
As mentioned, several simplifications are widely used in traditional approaches. The following sections will briefly summarize them.

1.2.2 Member Stress State Oversimplification

Members in highly redundant 3D structures are often nonsymmetrical (such as in industrial plants or architects’ innovative designs), and under the effect of combined load cases, they are always loaded in the most general way. If they are not: (a) fully hinged at both extremities, (b) straight, and (c) with no t...

Table of contents

  1. Cover
  2. Title Page
  3. Table of Contents
  4. Preface
  5. 1 Introduction
  6. 2 Jnodes
  7. 3 A Model for Connection
  8. 4 Renodes
  9. 5 Pillars of Connection Analysis
  10. 6 Connectors: Weld Layouts
  11. 7 Connectors: Bolt Layouts and Contact
  12. 8 Failure Modes
  13. 9 Analysis: Hybrid Approach
  14. 10 Analysis: Pure FEM Approach
  15. 11 Conclusions and Future Developments
  16. Appendix 1: Conventions and Recalls
  17. Appendix 2: Tangent Stiffness Matrix of Fillet‐Welds
  18. Appendix 3: Tangent Stiffness Matrix of Bolts in Shear
  19. Index
  20. Symbols and Abbreviations
  21. End User License Agreement

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Yes, you can access Steel Connection Analysis by Paolo Rugarli in PDF and/or ePUB format, as well as other popular books in Technology & Engineering & Civil Engineering. We have over one million books available in our catalogue for you to explore.