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1、 AS/NZS 1170.0 Supp 1:2002 (Incorporating Amendment No. 1) AS/NZS 1170.0 Supplement 1:2002 Structural design actionsGeneral principlesCommentary (Supplement to AS/NZS 1170.0:2002) AS/NZS 1170.0 Supp 1 Accessed by UNIVERSITY OF SOUTH AUSTRALIA on 29 Jan 2008 AS/NZS 1170.0 Supp 1:2002 This Joint Austr
2、alian/New Zealand Standard supplement was prepared by Joint Technical Committee BD-006, General Design Requirements and Loading on Structures. It was approved on behalf of the Council of Standards Australia on 29 March 2002 and on behalf of the Council of Standards New Zealand on 28 March 2002. It w
3、as published on 4 June 2002. The following are represented on Committee BD-006: Association of Consulting Engineers Australia Australian Building Codes Board Australian Institute of Steel Construction Building Research Association of New Zealand Cement and Concrete Association of Australia CSIRO Bui
4、lding, Construction and Engineering Cyclone Testing StationJames Cook University Electricity Supply Association of Australia Housing Industry Association Institution of Engineers Australia Institution of Professional Engineers New Zealand Master Builders Australia New Zealand Heavy Engineering Resea
5、rch Association Steel Reinforcement Institute of Australia University of Canterbury New Zealand University of Melbourne University of Newcastle Keeping Standards up-to-date Standards are living documents which reflect progress in science, technology and systems. To maintain their currency, all Stand
6、ards are periodically reviewed, and new editions are published. Between editions, amendments may be issued. Standards may also be withdrawn. It is important that readers assure themselves they are using a current Standard, which should include any amendments which may have been published since the S
7、tandard was purchased. Detailed information about joint Australian/New Zealand Standards can be found by visiting the Standards Australia web site at .au or Standards New Zealand web site at www.standards.co.nz and looking up the relevant Standard in the on-line catalogue. Alternatively, both organi
8、zations publish an annual printed Catalogue with full details of all current Standards. For more frequent listings or notification of revisions, amendments and withdrawals, Standards Australia and Standards New Zealand offer a number of update options. For information about these services, users sho
9、uld contact their respective national Standards organization. We also welcome suggestions for improvement in our Standards, and especially encourage readers to notify us immediately of any apparent inaccuracies or ambiguities. Please address your comments to the Chief Executive of either Standards A
10、ustralia International or Standards New Zealand at the address shown on the back cover. This Standard was issued in draft form for comment as DR 00904 (in part). Accessed by UNIVERSITY OF SOUTH AUSTRALIA on 29 Jan 2008 AS/NZS 1170.0 Supp 1:2002 (Incorporating Amendment No. 1) AS/NZS 1170.0 Supplemen
11、t 1:2002 Structural design actionsGeneral principlesCommentary (Supplement to AS/NZS 1170.0:2002) Originated in Australia as part of AS 1170.11989. Originated in New Zealand as part of NZS 4203:1976. Previous New Zealand edition NZS 4203:1992. AS 1170.11989 and NZS 4203:1992 jointly revised, amalgam
12、ated and redesignated in part as AS/NZS 1170.0 Supplement 1:2002. Reissued incorporating Amendment No. 1 (November 2003). COPYRIGHT Standards Australia/Standards New Zealand All rights are reserved. No part of this work may be reproduced or copied in any form or by any means, electronic or mechanica
13、l, including photocopying, without the written permission of the publisher. Jointly published by Standards Australia International Ltd, GPO Box 5420, Sydney, NSW 2001 and Standards New Zealand, Private Bag 2439, Wellington 6020 ISBN 0 7337 4470 2 Accessed by UNIVERSITY OF SOUTH AUSTRALIA on 29 Jan 2
14、008 AS/NZS 1170.0 Supp 1:2002 2 PREFACE This Commentary was prepared by the Joint Standards Australia/Standards New Zealand Committee BD-006, General Design Requirements and Loading on Structures, as a Supplement to AS/NZS 1170.0, Structural design actions, Part 0: General principles. This Commentar
15、y supersedes in part AS 1170.11989, Minimum design loads on structures, Part 1: Dead and live loads and load combinations and in part NZS 4203:1992, Code of practice for general structural design and design loadings for buildings (Vol. 2). This Commentary incorporates Amendment No. 1 (November 2003)
16、. The changes required by the Amendment are indicated in the text by a marginal bar and amendment number against the clause, note, table, figure or part thereof affected. The Commentary provides background material for and guidance to the requirements of the Standard. The clause numbers of this Comm
17、entary are prefixed by the letter C to distinguish them from references to the Standard clauses to which they directly relate. Where a Commentary to certain clauses is non-existent, it is because no explanation of the Clause is necessary. The intention is that the AS/NZS 1170 series of Standards wil
18、l be applied by a suitably qualified professional. The AS/NZS 1170 series sets out the basic procedure for the structural design of structures. Other Standards that provide engineered solutions for particular situations (e.g., house framing) may be based on the methods given in these Standards. The
19、AS/NZS 1170 series includes clauses that contain an element of engineering judgement. This reflects the fact that engineering is a creative activity based on science applied with art and skill. ACKNOWLEDGEMENT Standards Australia wishes to acknowledge and thank the following members who have contrib
20、uted significantly to this Commentary: Mr G. Boughton Mr P. Kleeman Dr Lam Pham Mr R. Potter Accessed by UNIVERSITY OF SOUTH AUSTRALIA on 29 Jan 2008 AS/NZS 1170.0 Supp 1:2002 3 CONTENTS Page SECTION C1 SCOPE AND GENERAL C1.1 SCOPE.4 C1.2 APPLICATION .5 C1.3 REFERENCED DOCUMENTS.5 C1.4 DEFINITIONS.6
21、 C1.5 NOTATION.6 SECTION C2 STRUCTURAL DESIGN PROCEDURE C2.1 GENERAL.7 C2.2 ULTIMATE LIMIT STATES7 C2.3 SERVICEABILITY LIMIT STATES8 SECTION C3 ANNUAL PROBABILITY OF EXCEEDANCE (FOR NEW ZEALAND USE ONLY) C3.1 GENERAL.9 C3.2 IMPORTANCE LEVELS9 C3.3 DESIGN WORKING LIFE9 C3.4 ANNUAL PROBABILITY OF EXCE
22、EDANCE.9 SECTION C4 COMBINATIONS OF ACTIONS C4.1 GENERAL.10 C4.2 COMBINATIONS OF ACTIONS FOR ULTIMATE LIMIT STATES.10 C4.3 COMBINATIONS OF ACTIONS FOR SERVICEABILITY LIMIT STATES.13 C4.4 CYCLIC ACTIONS.13 SECTION C5 METHODS OF ANALYSIS C5.1 GENERAL.14 C5.2 STRUCTURAL MODELS 14 SECTION C6 STRUCTURAL
23、ROBUSTNESS C6.1 GENERAL.16 C6.2 LOAD PATHS.16 SECTION C7 CONFIRMATION METHODS C7.1 GENERAL.17 C7.2 ULTIMATE LIMIT STATES17 C7.3 SERVICEABILITY LIMIT STATES17 APPENDICES CA SPECIAL STUDIES19 CB USE OF TEST DATA FOR DESIGN21 CC GUIDELINES FOR SERVICEABILITY LIMITS.23 CD FACTORS FOR USE WITH AS 1170.41
24、99324 CE FACTORS FOR USE WITH AS 1170.3199025 CF ANNUAL PROBABILITY OF EXCEEDANCE (FOR AUSTRALIAN USE ONLYSTRUCTURES FOR WHICH DESIGN EVENTS ARE NOT GIVEN)26 CZ ADDITIONAL LOAD INFORMATION.29 A1 Accessed by UNIVERSITY OF SOUTH AUSTRALIA on 29 Jan 2008 AS/NZS 1170.0 Supp 1:2002 COPYRIGHT 4 STANDARDS
25、AUSTRALIA/STANDARDS NEW ZEALAND Australian/New Zealand Standard Structural design actionsGeneral principlesCommentary (Supplement to AS/NZS 1170.0:2002) S E C T I O N C 1 S C O P E A N D G E N E R A L C1.1 SCOPE This Commentary is intended to be read in conjunction with AS/NZS 1170.0:2002. It explai
26、ns the provisions of and, in some cases, suggests approaches that may satisfy the intent of the Standard. Commentary Clauses are not mandatory. Lists of references are also given for further reading. The Standard (AS/NZS 1170.0) has been revised as a joint Australian/New Zealand Standard. It specifi
27、es the basic procedure for the structural design of structures including buildings. Other documents may be relevant for the details of building design (e.g., design of fire escapes) that are not needed for the design of the structure. The Standard incorporates the fundamentals of the limit states me
28、thod and enables the designer to confirm the design of a structure. The intention is that confirmation establishes the ability of the proposed structure to resist known or foreseeable types of action appropriate to the intended use and design working life of the structure. The determination of struc
29、tural resistance is covered by the Standards for design of materials. Much of the philosophy and some of the text (for example, most of the definitions and notation) are drawn from ISO Standards, including ISO 2394, ISO 3898, ISO 4356 and ISO 8930. The general principles given in the Standard are re
30、levant to the design of any structure. However, the information may not be sufficient for some structure types because their design is more complex (due to the inherent behaviour of the structure) or involves loadings that are not covered (type of action or load case), or other Standards give design
31、 criteria. Structures and structural elements should be designed so that they are suited for their intended use during the design working life. ISO 2394 states the following: In particular, they shall fulfil, with appropriate degrees of reliability, the following objectives: (a) They shall perform a
32、dequately under all expected actions. (b) They shall withstand both extreme actions and frequently repeated actions occurring during their construction and anticipated use. (c) They shall have structural robustness. These three objectives enunciate the serviceability, ultimate and fatigue, and progr
33、essive collapse (structural robustness) aspects of design. Accessed by UNIVERSITY OF SOUTH AUSTRALIA on 29 Jan 2008 AS/NZS 1170.0 Supp 1:2002 COPYRIGHT 5 SPECIAL STUDIES Where methods or information used in a design are outside the scope of the Standard justification would normally be required for a
34、pproval under building regulations. This would require a special study. A special study is a means of establishing information for use in design that is not specifically stated in the Standard. This may include information varied from or not included in the Standard (see Appendix A and its Commentar
35、y). The results of such special studies are outside the scope of the Standard. Special studies may be carried out at the initiative of the designer for any building, subject to satisfying the requirements of the appropriate authority. Appendix B covers testing as part of a special study. Appendix CA
36、 gives additional information on actions not covered, including (i) movement effects; (ii) construction loads; and (iii) accidental actions. OTHER STRUCTURE TYPES The following publications give information useful or necessary for the design of the structures indicated: (A) HB77 for bridges. (B) AS
37、4678 for earth-retaining structures. (C) AS 3995 for lattice towers and masts, including electrical transmission structures. (D) AS 3962 for marinas. (E) AS 3826, ISO 2394 and ISO 13822 for assessment of existing structures. (F) AS 2159 for piling. (G) AS/NZS 4676 for utility services poles. (H) AS
38、1418 for cranes. (I) AS/NZS 1576 for scaffolding. (J) AS 3610 for formwork. (K) AS 2156.2 for walking track structures. The design of chimneys may require the use of specialist publications. Off shore structures require additional information on winds, waves, currents and earthquake. High-risk struc
39、tures that require special reliability consideration (such as dams) are generally covered by the special requirements of the regulatory authorities responsible for them. C1.2 APPLICATION C1.3 REFERENCED DOCUMENTS The following documents are referred to in this Commentary: AS 1418 Cranes (including h
40、oists and winches) 2156 Walking tracks 2156.2 Part 2: Infrastructure design Accessed by UNIVERSITY OF SOUTH AUSTRALIA on 29 Jan 2008 AS/NZS 1170.0 Supp 1:2002 COPYRIGHT 6 AS 2159 PilingDesign and installation 2327 Composite structures 2327.1 Part 1: Simply supported beams 3610 Formwork for concrete
41、3826 Strengthening existing buildings for earthquake 3962 Guidelines for marinas 3995 Design of steel lattice towers and masts 4040 Methods of testing sheet roof and wall cladding 4040.3 Part 3: Resistance to wind pressures for cyclone regions 4678 Earth retaining structures HB77 Australian bridge d
42、esign code AS/NZS 1170 Structural design actions 1170.0 Part 0: General principles 1170.1 Part 1: Permanent, imposed and other actions 1170.2 Part 2: Wind actions 1576 Scaffolding 1576.1 Part 1: General requirements 4673 Cold-formed stainless steel structures 4676 Structural design requirements for
43、utility services poles ISO 2394 General principles on reliability for structures 3898 Bases for design of structuresNotationsGeneral symbols 4356 Bases for the design of structuresDeformations of buildings at the serviceability limit states 8930 General principles on reliability for structuresList o
44、f equivalent terms 10137 Bases for design of structuresServiceability of buildings against vibration 13822 Bases for design of structuresAssessment of existing structures Other documents are detailed in Clause C4.3 and Appendix CZ. C1.4 DEFINITIONS The definitions are drawn from or based on ISO 2394
45、 and ISO 8930 except for those for design capacity, load, proof testing and prototype testing, which are not defined in those Standards. C1.5 NOTATION The notation used in AS/NZS 1170.0 follows the guidelines given in ISO 3898. The same notation is used in this Commentary together with the following
46、: P- = load and deflection effects (second order analysis). Accessed by UNIVERSITY OF SOUTH AUSTRALIA on 29 Jan 2008 AS/NZS 1170.0 Supp 1:2002 COPYRIGHT 7 S E C T I O N C 2 S T R U C T U R A L D E S I G N P R O C E D U R E C2.1 GENERAL The use of this Standard within the regulatory framework in Aust
47、ralia and New Zealand differs and the Standard includes clauses that are specific to these countries. Reference is made to the Building Code of Australia for Australia and to Section 3 for New Zealand. The clauses include the determination of appropriate levels of environmental actions for a particu
48、lar structure and the appropriate materials design Standards. Materials design Standards include the following: AS 1720 Timber structures 1720.1 Part 1: Design methods 2159 PilingDesign and installation 2327 Composite structures 2327.1 Part 1: Simply supported beams 3600 Concrete structures 3700 Mas
49、onry structures 4100 Steel structures 4678 Earth retaining structures AS/NZS 1664 Aluminium structures 1664.1 Part 1: Limit state design 4065 Concrete utility services poles 4600 Cold-formed steel structures 4673 Cold-formed stainless steel structures 4676 Structural design requirements for utility services poles 4677 Steel utility services poles NZS 3101 Concrete structures standard 3101.1 Part 1: The design of concrete structures 3404 Steel structures standard 3404.1 Part 1: Steel structures standard 3603 Timber structures standar
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