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Steel Design William Segui (The University of Memphis)

Steel Design By William Segui (The University of Memphis)

Steel Design by William Segui (The University of Memphis)

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Steel Design Summary

Steel Design by William Segui (The University of Memphis)

Learn the fundamentals of structural steel design with STEEL DESIGN s unique emphasis on the design of members and their connections. With this best-selling book, you can learn LRFD (Load and Resistance Factor Design) or ASD (Allowable Stress Design), depending on how your course is taught. You will master the application of fundamental principles for design procedures, as well as for practical design. You will also study the theory behind these procedures, which further strengthens your engineering knowledge. While this market-leading book is ideal for your junior-and senior-level steel design class, later chapters are also useful for graduate courses. The book functions as a valuable ongoing reference tool for success in your career as a practicing engineer.

About William Segui (The University of Memphis)

William T. Segui is a Professor Emeritus of Civil Engineering at The University of Memphis, where he has been a member of the faculty since 1968. He holds a B.S.C.E, M.S., and Ph.D. from the University of South Carolina. After obtaining his B.S.C.E., he served as a commissioned officer in the U.S. Air Force. He then joined Wilbur Smith Associates, where he was a highway bridge designer. During graduate school, he received an NSF Graduate Traineeship. Since joining the Department of Civil Engineering at The University of Memphis, he has received two NASA/ASEE Summer Faculty Fellowships at the Marshall Space Flight Center in Huntsville, Alabama. Dr. Segui has worked several summers for various consulting firms and for the U.S. Army Corps of Engineers. He received the University of Memphis Distinguished Teaching Award in 2000. Dr. Segui is an emeritus member of the American Institute of Steel Construction and is a member of the Committee on Manuals. He received the 2011 AISC Special Achievement Award for his contributions to steel design education. He is a Life Member of the American Society of Civil Engineers and a member of the Tennessee Structural Engineers Association. Dr. Segui is also a licensed professional engineer in Tennessee.

Table of Contents

1. INTRODUCTION. Structural Design. Loads. Building Codes. Design Specifications. Structural Steel. Standard Cross-Sectional Shapes. Problems. 2. CONCEPTS IN STRUCTURAL STEEL DESIGN. Design Philosophies. American Institute of Steel Construction Specification. Load Factors, Resistance Factors, and Load Combinations for LRFD. Safety Factors and Load Combinations for ASD. Probabilistic Basis of Load and Resistance Factors. Steel Construction Manual. Design Computations and Precision. Problems. 3. TENSION MEMBERS. Introduction. Tensile Strength. Effective Area. Staggered Fasteners. Block Shear. Design of Tension Members. Threaded Rods and Cables. Tensions Members in Roof Trusses. Pin-Connected Members. Problems. 4. COMPRESSION MEMBERS. Introduction. Column Theory. AISC Requirements. Local Stability. Tables for Compression Members. Design. More on Effective Length. Torsional and Flexural-Torsional Buckling. Built-Up Members. Problems. 5. BEAMS. Introduction. Bending Stress and the Plastic Moment. Stability. Classification of Shapes. Bending Strength of Compact Shapes. Bending Strength of Noncompact Shapes. Summary of Moment Strength. Deflection. Design. Manual Table 6-2 for Beam Analysis and Design. Floor and Roof Framing Systems. Holes in Beams. Open-Web Steel Joists. Beam Bearing Plates and Column Base Plates. Biaxial Bending. Bending Strength of Various Shapes. Problems. 6. BEAM-COLUMNS. Definition. Interaction Formulas. Methods of Analysis for Required Strength. The Moment Amplification Method. Braced Versus Unbraced Frames. Members in Braced Frames. Members in Unbraced Frames. Design of Beam-Columns. Trusses with Top-Chord Loads Between Joints. Problems. 7. SIMPLE CONNECTIONS. Introduction. Bolted Shear Connections: Failure Modes. Bearing Strength, Spacing, and Edge-Distance Requirements. Shear Strength. Installation of High-Strength Bolts. Slip-Critical and Bearing-Type Connections. Design Examples. High-Strength Bolts in Tension. Combined Shear and Tension in Fasteners. Welded Connections. Fillet Welds. Problems. 8. ECCENTRIC CONNECTIONS. Examples of Eccentric Connections. Eccentric Bolted Connections: Shear Only. Eccentric Bolted Connections: Shear Plus Tension. Eccentric Welded Connections: Shear Only. Eccentric Welded Connections: Shear Plus Tension. Moment-Resisting Connections. Column Stiffeners and Other Reinforcement. End-Plate Connections. Concluding Remarks. Problems. 9. COMPOSITE CONSTRUCTION. Introduction. Shored Versus Unshored Construction. Effective Flange Width. Steel Headed Stud Anchors. Design. Deflections. Composite Beams with Formed Steel Deck. Tables for Composite Beam Analysis and Design. Continuous Beams. Composite Columns. Problems. 10. PLATE GIRDERS. Introduction. General Considerations. AISE Requirements for Proportions of Plate Girders. Flexural Strength. Shear Strength. Bearing Stiffeners. Design. Problems. APPENDIX: PLASTIC ANALYSIS AND DESIGN. Introduction. AISC Requirements. Analysis. Design. Concluding Remarks. REFERENCES. ANSWERS TO SELECTED PROBLEMS. INDEX.

Additional information

CIN1337094749G
9781337094740
1337094749
Steel Design by William Segui (The University of Memphis)
William Segui (The University of Memphis)
Used - Good
Hardback
Cengage Learning, Inc
2017-04-11
800
N/A
Book picture is for illustrative purposes only, actual binding, cover or edition may vary.
This is a used book - there is no escaping the fact it has been read by someone else and it will show signs of wear and previous use. Overall we expect it to be in good condition, but if you are not entirely satisfied please get in touch with us

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