Ensure ductile behavior in any steel structure Engineer earthquake resistant structures using today's most advanced ductile steel design techniques. This guide gives you the latest seismic-resistant design criteria--based on research into the recent Northridge and Kobe earthquakes. You get fingertip access to the ductile properties of steel. . .essential data on the plastic behavior of cross-sections. . .and systematic methods and applications of plastic analysis. This time-saving resource walks you through the seismic design of ductile braced frames and moment resisting frames. . .provides the special detailing requirements needed to ensure satisfactory plastic behavior. . .gives you an overview of special steel-based energy dissipation systems. . .and much more.
Fundamentals of Structural Analysis introduces to engineering and architecture students a range of techniques for analyzing structures, from classical methods to matrix analysis upon which modern computer analysis is based. After an introduction to design loads, a thoughtful review of prerequisite skills in statics for analyzing statically determinate structures is presented. Methods for computing deflections then pave the way for classical methods of analyzing indeterminate structures–the flexibility, slope-deflection, and moment distribution methods. Approximate analysis techniques useful for practical design are then presented. For application to bridge-type structures with moving loads, the concept of influence lines is also covered. Finally, the stiffness method is introduced and extended upon in the direct stiffness method using matrix analysis. Throughout, carefully drawn figures, helpful insights, and practical examples and problems are presented to make this text a useful guide for students (and practitioners) to learn the essential skills for analyzing structures.
Comprehensive coverage of the background and design requirements for plastic and seismic design of steel structures Thoroughly revised throughout, Ductile Design of Steel Structures, Second Edition, reflects the latest plastic and seismic design provisions and standards from the American Institute of Steel Construction (AISC) and the Canadian Standard Association (CSA). The book covers steel material, cross-section, component, and system response for applications in plastic and seismic design, and provides practical guidance on how to incorporate these principles into structural design. Three new chapters address buckling-restrained braced frame design, steel plate shear wall design, and hysteretic energy dissipating systems and design strategies. Eight other chapters have been extensively revised and expanded, including a chapter presenting the basic seismic design philosophy to determine seismic loads. Self-study problems at the end of each chapter help reinforce the concepts presented. Written by experts in earthquake-resistant design who are active in the development of seismic guidelines, this is an invaluable resource for students and professionals involved in earthquake engineering or other areas related to the analysis and design of steel structures. COVERAGE INCLUDES: Structural steel properties Plastic behavior at the cross-section level Concepts, methods, and applications of plastic analysis Building code seismic design philosophy Design of moment-resisting frames Design of concentrically braced frames Design of eccentrically braced frames Design of steel energy dissipating systems Stability and rotation capacity of steel beams
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