1、SEISMICDESIGNMANUALAMERICAN INSTITUTEOFSTEEL CONSTRUCTIONSECOND EDITIONAMERICAN INSTITUTE OF STEEL CONSTRUCTION1 General Design Considerations2 Analysis3 Systems Not Specifically Detailed for Seismic Resistance4 Moment Frames5 Braced Frames6 Composite Moment Frames7 Composite Braced Frames and Shear
2、 WallsSM_Prelims_2nd Ed._Nov. 21, 2012 12-11-21 4:24 AM Page iAMERICAN INSTITUTE OF STEEL CONSTRUCTIONAMERICAN INSTITUTE OF STEEL CONSTRUCTION8 Diaphragms, Collectors and Chords9 Provisions and Standards10 Engineered Damping SystemsIndexSM_Prelims_2nd Ed._Nov. 21, 2012 12-11-21 4:24 AM Page iiAMERIC
3、AN INSTITUTE OF STEEL CONSTRUCTION AMERICAN INSTITUTE OF STEEL CONSTRUCTIONSEISMICDESIGNMANUALSECOND EDITIONAMERICAN INSTITUTEOFSTEEL CONSTRUCTIONSM_Prelims_2nd Ed._Nov. 21, 2012 12-11-21 4:24 AM Page ivviiAMERICAN INSTITUTE OF STEEL CONSTRUCTIONDEDICATIONClarkson (“Pinky”) W. PinkhamThis edition of
4、 the AISC Seismic Design Manual is dedicated to the memory of Clarkson W. Pinkham, a long-time member of the AISC Committee on Specifications and TaskCommittee 9Seismic Design. Mr. Pinkham, or Pinky as he was affectionately known to his professional colleagues, was president and member of the Los An
5、geles consulting struc-tural engineering firm, S.B. Barnes and Associates, for 62 years. He served on the AISCCommittee on Specifications from the mid-1970s until the year 2000, and Task Committee9Seismic Design from the mid-1990s until 2010. As a member of Task Committee 9 andtechnical secretary fo
6、r the 1997 AISC Seismic Provisions for Structural Steel Buildings, hewas a major contributor and instrumental in the early development of that standard. Pinkywas one of the first proponents of including composite systems in the AISC SeismicProvisions and, for the first time, this Seismic Design Manu
7、al includes two chapters on suchsystems. Pinky received the AISC Lifetime Achievement Award in 1999. Through a careerthat spanned more than six decades, he spent a lifetime sharing his expertise with others inthe field. He was passionate about learning up until his death in 2012 at the age of 92. Pi
8、nkywas generous in sharing his abundance of structural engineering experience and knowledgethrough committee involvement and with those who requested it on the subjects of structuralsteel, concrete and masonry design, cold-formed structures, and timber. By providing solu-tions and recommendations in
9、 this way, Pinky improved the integrity of numerousstructures; in particular, their capacity to resist seismic-generated forces. He was electedpresident of the Structural Engineers Association of Southern California (SEAOSC) in1971, and later served as president of the Structural Engineers Associati
10、on of California(SEAOC) in 1975. He was twice given the S.B. Barnes Award for Research, and in 1994 was inducted into the SEAOC College of Fellows, the highest honor awarded by SEAOC. In 2009, the Structural Engineering Institute of the American Society of Civil Engineersawarded Pinky the Walter P.
11、Moore, Jr., Award in recognition of his dedication to and tech-nical expertise in the development of structural codes and standards. AISC will alwaysremember his dedication to the development of standards related to the design and con-struction of structural steel and it is especially fitting that t
12、he 2nd Edition of the AISCSeismic Design Manual be dedicated to the memory of Clarkson W. Pinkham.viAMERICAN INSTITUTE OF STEEL CONSTRUCTIONAISC 2012byAmerican Institute of Steel ConstructionISBN 1-56424-061-4All rights reserved. This book or any part thereof must not be reproduced in any form witho
13、ut the written permission of the publisher.The AISC logo is a registered trademark of AISC.The information presented in this publication has been prepared in accordance with recog-nized engineering principles and is for general information only. While it is believed to beaccurate, this information s
14、hould not be used or relied upon for any specific applicationwithout competent professional examination and verification of its accuracy, suitability andapplicability by a licensed professional engineer, designer, or architect. The publication ofthe material contained herein is not intended as a rep
15、resentation or warranty on the part ofthe American Institute of Steel Construction or of any other person named herein, that thisinformation is suitable for any general or particular use or of freedom from infringement ofany patent or patents. Anyone making use of this information assumes all liabil
16、ity arisingfrom such use.Caution must be exercised when relying upon other specifications and codes developed byother bodies and incorporated by reference herein since such material may be modified oramended from time to time subsequent to the printing of this edition. The Institute bears noresponsi
17、bility for such material other than to refer to it and incorporate it by reference at thetime of the initial publication of this edition.Printed in the United States of AmericaFirst Printing: September 2012SM_Prelims_2nd Ed._Nov. 21, 2012 12-11-21 4:24 AM Page viixAMERICAN INSTITUTE OF STEEL CONSTRU
18、CTIONPREFACEThis is the second edition of the AISC Seismic Design Manual, intended to assist designersin properly applying AISC standards and provisions in the design of steel frames to resisthigh-seismic loadings. This Manual is intended for use in conjunction with the AISC SteelConstruction Manual
19、, 14th Edition.The following consensus standards are printed in Part 9 of this Manual: 2010 Seismic Provisions for Structural Steel Buildings (ANSI/AISC 341-10) 2010 Prequalified Connections for Special and Intermediate Steel Moment Frames for Seismic Applications including Supplement No. 1 (ANSI/AI
20、SC 358-10 and ANSI/AISC 358s1-11)The design examples contained in this Manual demonstrate an approach to design, andare not intended to suggest that the approach presented is the only approach. The commit-tee responsible for the development of these design examples recognizes that designers havealte
21、rnate approaches that work best for them and their projects. Design approaches that dif-fer from those presented in these examples are considered viable as long as the AISCSpecification and AISC Seismic Provisions, sound engineering, and project specific require-ments are satisfied.The following maj
22、or changes and improvements have been made in this revision: More thorough and comprehensive design examples, updated for the 2010 AISCSeismic Provisions Side-by-side LRFD and ASD design methodologies for design examples Addition of Part 2: Analysis Addition of column base plate design examples Exte
23、nded discussion in Part 8 on collector elements Addition of Part 10: Engineered Damping Systems Addition of buckling-restrained braced frame systems and examples Addition of new chapters on composite moment frames and composite braced framesBy the AISC Committee on Manuals and Textbooks, Mark V. Hol
24、land, Chairman Ronald L. MengGary C. Violette, Vice-Chairman Larry MuirAbbas Aminmansour Thomas M. MurrayCharles J. Carter Rafael SabelliHarry A. Cole Clifford W. SchwingerBrad Davis William N. ScottBo Dowswell William T. SeguiLanny J. Flynn Victor ShneurPatrick J. Fortney Marc L. SorensonW. Scott G
25、oodrich William A. ThorntonChristopher M. Hewitt Michael A. WestW. Steven Hofmeister Ronald G. YeagerWilliam P. Jacobs Cynthia J. Duncan, SecretaryBill R. Lindley, IIviiiAMERICAN INSTITUTE OF STEEL CONSTRUCTIONFOREWORDThe American Institute of Steel Construction, founded in 1921, is the nonprofit te
26、chnicalspecifying and trade organization for the fabricated structural steel industry in the UnitedStates. Executive and engineering headquarters of AISC are maintained in Chicago. TheInstitute is supported by four classes of membership: Active Members engaged in the fab-rication, production and sal
27、e of structural steel; Associate Members, who include Erectors,Detailers, Service Consultants, Software Developers, and Steel Product Manufacturers;Professional Members, who are individuals or firms engaged in the practice of architectureor engineering, including architectural and engineering educat
28、ors; and Affiliate Members,who include General Contractors, Building Inspectors and Code Officials. The continuingfinancial support and active participation of Members in the engineering, research anddevelopment activities of the Institute make possible the publishing of this Seismic DesignManual.Th
29、e Institutes objective is to make structural steel the material of choice, by being theleader in structural-steel-related technical and market-building activities, including: specifi-cation and code development, research, education, technical assistance, quality certification,standardization, and ma
30、rket development. To accomplish this objective, the Institute publishes manuals, design guides and specifi-cations. Best known and most widely used is the Steel Construction Manual, which holds ahighly respected position in engineering literature. The Manual is based on the Specificationfor Structur
31、al Steel Buildings and the Code of Standard Practice for Steel Buildings andBridges. Both standards are included in the Manual for easy reference.The Institute also publishes technical information and timely articles in its EngineeringJournal, Design Guide series, Modern Steel Construction magazine,
32、 and other design aids,research reports, and journal articles. Nearly all of the information AISC publishes is avail-able for download from the AISC web site at www.aisc.org.SM_Prelims_2nd Ed._Nov. 21, 2012 12-11-21 4:24 AM Page viiixiAMERICAN INSTITUTE OF STEEL CONSTRUCTIONSCOPEThe specification re
33、quirements and other design recommendations and considerations sum-marized in this Manual apply in general to the design and construction of seismic forceresisting systems in steel buildings and other structures. The AISC Seismic Design Manualis intended to be applied in conjunction with the AISC St
34、eel Construction Manual, whichprovides guidance on the use of the AISC Specification for Structural Steel Buildings.In addition to the requirements of the AISC Specification, the design of seismic forceresisting systems must meet the requirements in the AISC Seismic Provisions for StructuralSteel Bu
35、ildings, except in the following cases for which use of the AISC Seismic Provisionsis not required: Buildings and other structures in Seismic Design Category (SDC) A Buildings and other structures in SDC B or C with R = 3 systems (steel systems notspecifically detailed for seismic resistance per ASC
36、E/SEI 7 Table 12.2-1) Nonbuilding structures similar to buildings with R = 1 braced-frame systems or R = 1 moment-frame systems; see ASCE/SEI 7 Table 15.4-1 Nonbuilding structures not similar to buildings (see ASCE/SEI 7 Table 15.4-2), whichare designed to meet the requirements in other standards en
37、tirelyConversely, use of the AISC Seismic Provisions is required in the following cases: Buildings and other structures in SDC B or C when one of the exemptions for steelseismic force resisting systems above does not apply Buildings and other structures in SDC B or C that use composite seismic force
38、 resist-ing systems (those containing composite steel-and-concrete members and thosecomposed of steel members in combination with reinforced concrete members) Buildings in SDC D, E or F Nonbuilding structures in SDC D, E or F when the exemption above does not applyThe Seismic Design Manual consists
39、of ten parts addressing various topics related to thedesign and construction of seismic force resisting systems of structural steel and structuralsteel acting compositely with reinforced concrete. Part 1 stipulates the specific editions ofthe specifications, codes and standards referenced in this Ma
40、nual, and provides a discussionof general design considerations related to seismic design. Part 2 provides some guidanceon structural analysis procedures employed. For the design of systems not detailed for seis-mic resistance, see Part 3. Parts 4 through 7 apply to the various types of seismic forc
41、eresisting systems, including design examples. Part 8 discusses other systems, such asdiaphragm chords and collectors, which are important in seismic design. Part 10 addressesengineering damping systems. For applicable AISC seismic standards, see Part 9.xAMERICAN INSTITUTE OF STEEL CONSTRUCTIONand t
42、he AISC Subcommittee on Seismic Design,Rafael Sabelli, Chairman Brett R. ManningThomas A. Sabol, Vice-Chairman Heath E. MitchellAllen Adams Kevin S. MooreScott M. Adan Larry MuirWilliam A. Andrews Clinton O. RexRichard M. Drake John A. RolfesMichael D. Engelhardt William N. ScottPatrick J. Fortney V
43、ictor ShneurTimothy P. Fraser Harold O. SpragueJohn L. Harris, III Amit H. VarmaJames O. Malley Leigh Arber, SecretaryThe committee gratefully acknowledges the contributions made to this Manual by the fol-lowing individuals: Eric Bolin, Areti Carter, Maria E. Chumbita, Janet Cummins, ThomasDehlin, R
44、ichard Drake, Erica Fischer, Louis Geschwindner, Amir Gilani, Keith Grubb,Jerome Hajjar, Amit Kanvinde, Richard Kaehler, Ryan Kersting, Zhichao Lai, DawnLehman, Brent Leu, Kit Miyamoto, Keith Palmer, Davis Parsons II, Paul Richards,Kimberly Robinson, Charles Roeder, Brandt Saxey, Thomas Schlafly, Ba
45、hram Shahrooz,Chia-Ming Uang, and Jie Zuo.SM_Prelims_2nd Ed._Nov. 21, 2012 12-11-21 4:24 AM Page xxiiAMERICAN INSTITUTE OF STEEL CONSTRUCTIONSM_Prelims_2nd Ed._Nov. 21, 2012 12-11-21 4:24 AM Page xii11AMERICAN INSTITUTE OF STEEL CONSTRUCTIONPART 1GENERAL DESIGN CONSIDERATIONS1.1 SCOPE . . . . . . .
46、. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 141.2 APPLICABLE SPECIFICATIONS, CODES AND OTHER REFERENCES . . . . 14Specifications, Codes and Standards for Structural Steel Buildings . . . . . . . . . . . . 14Other AISC Reference Documents .
47、. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 151.3 SEISMIC DESIGN OVERVIEW AND DESIGN CONSIDERATIONS . . . . . . . . 15Performance Goals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15Applicable Building Code . . .
48、. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16Risk Category and Seismic Design Category . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17Earthquake Ground Motion and Response Spectrum . . . . . . . . . . . . . . . . . . . . . . . 17Maximum Considere
49、d Earthquake and Design Basis Earthquake . . . . . . . . . . . . 110Systems Defined in ASCE/SEI 7 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 110Seismic Performance Factors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 112Response Modification Coefficient, R . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 112R = 3 Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 113Deflection Amplification Factor, Cd. . . . . . . .