Simplified Design of Steel Structures, 8th Edition
Examining a wide range of steel structures, building types, and construction details, Simplified Design of Steel Structures, Eighth Edition is a reliable, easy-to-use handbook that covers all commonly used steel systems, practices, and research in the field, reinforced with examples of practical designs and general building structural systems.
The Eighth Edition of this leading book in the noted Parker/Ambrose Series of Simplified Design Guides has been updated to conform to current building codes, design practices, and industry standards. Featuring a wealth of illustrations, expanded text examples, exercise problems, and a helpful glossary, this outstanding tool:
- Uses the latest American Institute of Steel Construction (AISC) method of structural design.
- Provides fundamental and real-world coverage of steel structures that assumes no previous experience.
- Includes valuable study aids such as exercise problems, questions, and word lists to enhance usability.
Preface to the First Edition.
1 Considerations for Use of Steel.
1.1 Properties of Steel.
1.2 Types of Steel Products.
1.3 Development of Structural Systems.
1.4 Connection Methods.
1.5 Data for Steel Products.
1.6 Usage Considerations for Steel Structures.
1.7 Choice and Planning of Steel Structural Systems.
2 Structural Investigation and Design.
2.1 Situations for Investigation and Design.
2.2 Methods of Investigation and Design.
2.3 Investigation of Columns and Beams.
2.4 Investigation of Column and Beam Frames.
2.5 Approximate Investigation of Indeterminate Structures.
2.6 Service Conditions.
2.7 Limit States Versus Service Conditions.
2.8 Resistance Factors.
2.9 Choice of Design Method.
3 Horizontal-Span Framing Systems.
3.1 Factors in Beam Design.
3.2 Inelastic Versus Elastic Behavior.
3.3 Nominal Moment Capacity of Steel Beams.
3.4 Design for Bending.
3.5 Design of Beams for Buckling Failure.
3.6 Shear in Steel Beams.
3.7 Deflection of Beams.
3.8 Safe Load Tables.
3.9 Manufactured Trusses for Flat Spans.
3.10 Decks with Steel Framing.
3.11 Concentrated Load Effects in Beams.
3.12 Torsional Effects.
3.13 Buckling of Beams.
3.14 Beam Bearing Plates.
4 Steel Columns.
4.1 Column Shapes.
4.2 Slenderness and End Conditions.
4.3 Safe Axial Loads for Steel Columns.
4.4 Design of Steel Columns.
4.5 Columns with Bending.
4.6 Column Framing and Connections.
4.7 Column Bases.
5 Frame Bents.
5.1 Development of Bents.
5.2 Multiunit Rigid Frames.
5.3 Three-Dimensional Frames.
5.4 Mixed Frame and Wall Systems.
5.5 Special Problems of Steel Rigid Frame Bents.
5.6 Trussed Frames.
6 Miscellaneous Steel Components and Systems.
6.1 Manufactured Systems.
6.2 Composite Structural Elements.
6.3 Tension Elements and Systems.
7 Horizontal-Span Steel Trusses.
7.1 General Considerations.
7.2 Bracing for Trusses.
7.3 Loads on Trusses.
7.4 Investigation for Internal Forces in Planar Trusses.
7.5 Design Forces for Truss Members.
7.6 Combined Actions in Truss Members.
7.7 Design Considerations for Steel Trusses.
7.8 Two-Way Trusses.
8 Steel Connections.
8.1 Basic Considerations.
8.2 Bolted Connections.
8.3 Design of a Bolted Connection.
8.4 Bolted Framing Connections.
8.5 Bolted Truss Connections.
8.7 Design of Welded Connections.
8.8 Welded Steel Frames.
8.9 Control Joints: Design for Selected Behavior.
9 General Considerations for Building Structures.
9.1 Choice of Building Construction.
9.2 Structural Design Standards.
9.3 Loads for Structural Design.
9.4 Dead Loads.
9.5 Building Code Requirements for Structures.
9.6 Live Loads.
9.7 Lateral Loads (Wind and Earthquake).
9.8 Load Combinations and Factors.
9.9 Determination of Design Loads.
9.10 Structural Planning.
9.11 Building Systems Integration.
10 Building Structures: Design Examples.
10.1 Building One.
10.2 Building Two.
10.3 Building Three.
10.4 Building Four.
10.5 Building Five.
10.6 Building Six.
Appendix A: Properties of Structural Sections.
Appendix B: Beam Design Aids.
Appendix C: Study Aids.
Answers to Questions.
Appendix D: Answers to Problems in Chapters.
James Ambrose is Editor of the Parker/Ambrose Series of Simplified Design Guides. He practiced as an architect in California and Illinois, and as a structural engineer in Illinois. He was professor of architecture at the University of Southern California.
Patrick Tripeny is an associate professor at the University of Utah's College of Architecture and Planning.
Updated to conform with current building codes, design practices, and industry standards
Focuses on the widely used Load and Resistance Factor Design (LRFD) method for the first time
Uses the latest American Institute of Steel Construction (AISC) method of structural design
Includes Instructor's Manual for the first time
Provides fundamental and real-world coverage of steel structures that assumes no previous experience
The most effectively concise reference available on the design of steel structures
Examines a wide range of steel structures, building types, and construction details
Includes numerous illustrations as well as valuable study aids such as exercise problems, questions, and word lists to enhance usability
Covers Allowable Stress Design (ASD)
Describes new materials, examples of general building structural systems, and the use of computers in structural design
Part of the Parker/Ambrose Series of Simplified Design Guides. This series has been providing students with simple, concise solutions to common structural and environmental design problems for more than seven decades
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Simplified Design of Steel Structures, 8th Edition (US $110.00)
-and- Simplified Design of Concrete Structures, 8th Edition (US $110.00)
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