Structural Steel Design: A Practice Oriented Approach
Author: Abi O. Aghayere, Rochester Institute of Technology Jason Vigil, Consulting Engineer | Size: 19.42 MB | Format: PDF | Publisher: Pearson | Year: 2009 | ISBN: 9780132340182
Structural Steel Design: A Practice-Oriented Approach, 1e takes a holistic approach by showing how each individual component design in a steel-framed building is incorporated into a complete building design as one would find in practice. It covers topics that are pertinent to everyday structural design of steel-framed buildings, plus others not commonly found in a text including framing layout, design ‘rules of thumb’, floor vibrations, structural strengthening, and torsion. These key topics are essential to preparing students for designing with structural steel in the real world. This book bridges the gap between theory and practice, helping students learn the basics of steel design and how to practically apply that learning to real-world steel framed building projects.
Key Features
Features practical, real-world examples that include the use of the design aids in the AISC Manual, helping students learn how to use the AISC Manual.
Provides comprehensive coverage of structural loads, including gravity and lateral loads, that is weaved seamlessly into the structural design process allowing for easy calculations of this somewhat complex task.
Includes a chapter on "Practical Considerations" that provides students with a holistic design view and helps reinforce the connection between structural element/member design and building design in practice.
Includes an introduction to floor vibration analysis and design per AISC Design Guide No. 11 as many modern buildings are more susceptible to vibration problems and most textbooks do not cover this topic.
Other topics frequently encountered in practice but aren't covered in other texts include beam copes and their reinforcing; X-braces using tension rods/clevises/turnbuckles; stability bracing of beams and columns; and beam design for uplift loads, strengthening and rehabilitation.
Includes a student steel design project at the end of Chapter 1 with future end-of-chapter problems challenging students to design different components of the building with the concepts learned in each chapter. At the end of the book, students will have completed the design of an entire building helping students tie the design of different building components to the design of an entire building and reinforces a holistic building design approach.
Table of Contents
1. Introduction to Steel Structures
2. Design Methods, Load Combinations, and Gravity Loads
3. Lateral Loads and Systems in Steel Buildings
4. Tension Members
5. Compression Members
6. Non-Composite Beams
7. Composite Beams
8. Beam—Columns
9. Connections —Bolts
10. Connections -Welds
11. Moment Connections
12. Floor Vibrations
13. Built-Up Girders (Plate Girders)
14. Practical Design Considerations in the Design of SteelBuilding
Appendix
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