BS 5467-2016 Electric cables Thermosetting insulated armoured cables of rated voltages of 600 1 000 V and 1 900 3 300 V for fixed installations Specification《电缆 用于固定装置的额定电压为600 100.pdf

1、BS 5467:2016Incorporating Corrigendum No. 1Electric cables Thermosetting insulated,armoured cables of ratedvoltages of 600/1 000 Vand 1 900/3 300 V for fixedinstallations SpecificationBSI Standards PublicationWB11885_BSI_StandardCovs_2013_AW.indd 1 15/05/2013 15:06Publishing and copyright informatio

2、nThe BSI copyright notice displayed in this document indicates when the documentwas last issued. The British Standards Institution 2016Published by BSI Standards Limited 2016ISBN 978 0 580 95650 8ICS 29.060.20The following BSI references relate to the work on this document:Committee reference GEL/20

3、/17Draft for comment 15/30301501 DCPublication historyFirst published June 1977Second edition September 1989Third edition October 1997Fourth (present) edition April 2016Amendments issued since publicationDate Text affectedSeptember 2016 C1 See ForewordBS 5467:2016 BRITISH STANDARDContentsForeword ii

4、i1 Scope 12 Normative references 13 Terms and definitions 24 Rated voltage 35 Conductors 36 Insulation 47 Identification of cores 48 Laying-up 69 Bedding 610 Armour 711 Oversheath 812 Cable marking and additional information 913 End sealing 1114 Schedule of tests 1215 Test conditions 1316 Routine te

5、sts 1317 Sample tests 1418 Type tests 15AnnexesAnnex A (informative) Guide to use and installation of cables 22Annex B (normative) Armour wire tests 29Annex C (normative) Compatibility test 30Annex D (normative) Abrasion resistance test 31Annex E (normative) Insulation resistance constant test on ov

6、ersheath 31Annex F (normative) Resistance of conductor and armour 32Annex G (informative) Gross cross-sectional area of armour 34Annex H (normative) Test for shrinkage of oversheath on cable 35Annex I (informative) Guidance on type tests 36Annex J (informative) United Kingdom reference codes 38Bibli

7、ography 39List of figuresFigure1Anexample of the marking on the oversheath of the cable 10List of tablesTable 1 Maximum permitted voltages against rated voltage of cable 3Table 2 Diameter of steel armour wire and mass of zinc coating 7Table 3 Schedule of tests 12Table 4 Single-core 600/1 000 V cable

8、s with copper conductors 16Table5Two-core 600/1 000 V cables with copper conductors 17Table 6 Three-core 600/1 000 V cables with copper conductors 18Table 7 Four-core 600/1 000 V cables with copper conductors 19Table 8 Five-core 600/1 000 V cables with copper conductors 20Table 9 Multicore auxiliary

9、 600/1 000 V cables with copper conductors 20Table 10 Single-core 1 900/3 300 V cables with copper conductors 21Table 11 Three-core 1 900/3 300 V cables with copper conductors 21Table A.1 Selection of cables for a.c. systems 23Table A.2 Test voltages after installation 28Table B.1 Temperature correc

10、tion multiplication factors 30Table C.1 Compatibility requirements 31BRITISH STANDARD BS 5467:2016 The British Standards Institution 2016 iTable D.1 Vertical load requirements 31Table F.1 Maximum resistance of conductor and armour for single-corecable 32Table F.2 Maximum resistance of conductor and

11、armour for two-, three-,four- and five-core cable 33Table F.3 Maximum resistance of conductor and armour for 600/1 000 Vmulticore auxiliary cables 33Table G.1 Gross cross-sectional area of armour wires for thesingle-core 600/1 000 V cable 34Table G.2 Gross cross-sectional area of armour wires for tw

12、o-, three-, four- andfive-core 600/1 000 V cable 34Table G.3 Gross cross-sectional area of armour wires for 600/1 000 V auxiliarycable 35Table J.1 Historical cable codes included in BS 5467 38Summary of pagesThis document comprises a front cover, an inside front cover, pages i to iv,pages 1 to 40, a

13、n inside back cover and a back cover.BRITISH STANDARDBS 5467:2016ii The British Standards Institution 2016ForewordPublishing informationThis British Standard is published by BSI Standards Limited, under licence fromThe British Standards Institution, and came into effect on 30 April 2016. It wasprepa

14、red by Subcommittee GEL/20/17, Low voltage cables, under the authorityof Technical Committee GEL/20, Electric cables. A list of organizationsrepresented on these committees can be obtained on request to their secretary.SupersessionThis British Standard supersedes BS 5467:1997+A3:2008, which will be

15、withdrawnon 30 April 2017.Information about this documentThis is a full revision of the standard, and introduces the following principalchanges.a) The range of cables types is restricted to cables with copper conductors.b) The marking requirements have been updated and clarified.c) Test methods have

16、 been updated in accordance with the latestBS EN standards.d) 48-core auxiliary cables have been removed as they are no longer marketrelevant.The new edition takes account of: BS EN 50395 (replacing Annex K of BS 5467:1997) on electrical tests; BS EN 50396 (replacing Annex D of BS 5467:1997) on thic

17、knessmeasurement; BS EN 60332-1-2 (replacing BS EN 50265-2-1); and BS EN 62230 (replacing BS EN 50356 and BS 5099) on spark testing.Product certification/inspection/testingUsers of this British Standard are advised to consider the desirability ofthird-party certification/inspection/testing of produc

18、t conformity with this BritishStandard. Users seeking assistance in identifying appropriate conformityassessment bodies or schemes may ask BSI to forward their enquiries to therelevant association.Hazard warningsWARNING. This British Standard calls for the use of substances and/orprocedures that can

19、 be injurious to health if adequate precautions are nottaken. It refers only to technical suitability and does not absolve the userfrom legal obligations relating to health and safety at any stage.Use of this documentIt has been assumed in the preparation of this British Standard that theexecution o

20、f its provisions will be entrusted to appropriately qualified andexperienced people, for whose use it has been produced.Text introduced or altered by Corrigendum No. 1 is indicated in the text by tags. Minor editorial corrections are not tagged.BRITISH STANDARD BS 5467:2016 The British Standards Ins

21、titution 2016 iiiPresentational conventionsThe provisions of this standard are presented in roman (i.e. upright) type. Itsrequirements are expressed in sentences in which the principal auxiliary verb is“shall”.Commentary, explanation and general informative material is presented insmaller italic typ

22、e, and does not constitute a normative element.Contractual and legal considerationsThis publication does not purport to include all the necessary provisions of acontract. Users are responsible for its correct application.Compliance with a British Standard cannot confer immunity from legalobligations

23、.BRITISH STANDARDBS 5467:2016iv The British Standards Institution 20161 ScopeThis British Standard specifies requirements for the construction andperformance of thermosetting insulated, armoured cables of rated voltagesof 600/1 000 V and 1 900/3 300 V.This British Standard is applicable to cables fo

24、r use in fixed installations inindustrial areas, buildings or similar applications.This British Standard specifies requirements for the following types of cables:a) 600/1 000 V cables, wire armoured and oversheathed, having single-core,two-, three-, four- and five-core stranded copper conductor;b) 6

25、00/1 000 V multicore auxiliary cables, wire armoured and oversheathed,stranded copper conductor; andc) 1 900/3 300 V cables, wire armoured and oversheathed, having single-coreor three-core stranded copper conductor.This British Standard is applicable to cables that are designed for a maximumsustaine

26、d conductor temperature of 90 C and for a maximum short-circuitconductor temperature of 250 C (for a maximum of 5 s).NOTE 1 Limitation on the temperature of the cables may be imposed in situationswhere they might be touched or where they could touch other materials.NOTE 2 Annex A gives a guide to th

27、e use and installation of cables, Annex B givesarmour wire tests, Annex C gives a compatibility test, Annex D gives an abrasionresistance test, Annex E gives an insulation resistance constant test on oversheath,Annex F gives the resistance of conductor and armour, Annex G gives the grosscross-sectio

28、nal area of armour, Annex H gives a test for shrinkage of oversheath oncable, Annex I gives guidance on type tests and Annex J gives the standard UnitedKingdom reference codes.2 Normative referencesThe following documents, in whole or in part, are normatively referenced in thisdocument and are indis

29、pensable for its application. For dated references, onlythe edition cited applies. For undated references, the latest edition of thereferenced document (including any amendments) applies.BS 7655-1.2, Specification for insulating and sheathing materials for cables Part 1: Cross-linked elastomeric ins

30、ulating compounds Section 1.2:General 90 C applicationBS 7655-1.3, Specification for insulating and sheathing materials for cables Part 1: Elastomeric insulating compounds Section 1.3: XLPEBS 7655-4.2, Specification for insulating and sheathing materials for cables Part 4: PVC sheathing compounds Se

31、ction 4.2: General applicationBS EN 10244-2:2009, Steel wire and wire products Non-ferrous metalliccoatings on steel wire Part 2: Zinc or zinc alloy coatingsBS EN 50395, Electrical test methods for low voltage energy cablesBS EN 50396, Non electrical test methods for low voltage energy cablesBS EN 6

32、0228, Conductors of insulated cablesBS EN 60229, Electric cables Tests on extruded oversheaths with a specialprotective functionBS EN 60332-1-2:2004+A1:2015, Tests on electric and optical fibre cables underfire conditions Part 1-2: Test for vertical flame propagation for a singleinsulated wire or ca

33、ble Procedure for 1 kW pre-mixed flameBRITISH STANDARD BS 5467:2016 The British Standards Institution 2016 1BS EN 60811-401, Electric and optical fibre cables Test methods fornon-metallic materials Part 401: Miscellaneous tests Thermal ageingmethods Ageing in an air ovenBS EN 60811-501, Electric and

34、 optical fibre cables Test methods fornon-metallic materials Part 501: Mechanical tests Tests for determining themechanical properties of insulating and sheathing compoundsBS EN 60811-502, Electric and optical fibre cables Test methods fornon-metallic materials Part 502: Mechanical tests Shrinkage t

35、est forinsulationBS EN 62230, Electric cables Spark-test methodBS EN ISO 6892-1, Metallic materials Tensile testing Method of test atambient temperatureIEC 60050-461, International electrotechnical vocabulary Part 461: Electriccables3 Terms and definitionsFor the purposes of this British Standard, t

36、he terms and definitions given inIEC 60050-461 and the following apply.3.1 cable manufacturerorganization that has the capability to both produce and control the conformityof cable made to this British StandardNOTE See 12.1a) for information on marking the cable with the cablemanufacturers name and

37、identifier.3.2 length of layaxial length of one complete turn of the helix formed by one cable component3.3 tests3.3.1 routine tests, Rtests made on all production cable lengths to demonstrate their integrity3.3.2 sample tests, Stests made on samples of completed cable, or components taken from acom

38、pleted cable, adequate to verify that the product meets the designspecifications3.3.3 type tests, Ttests made before supplying, on a general commercial basis, a type of cablecovered by this British Standard, in order to demonstrate satisfactoryperformance characteristics to meet the intended applica

39、tionNOTE Type tests are of such a nature that after they have been made, they neednot be repeated unless changes are made in the cable materials, design or type ofmanufacturing process, which might change the performance characteristics.3.4 values3.4.1 approximate valuevalue which is only indicative

40、NOTE Values described as “approximate” do not constitute requirements to bechecked by measurement.BRITISH STANDARDBS 5467:20162 The British Standards Institution 20163.4.2 nominal valuevalue by which a quantity is designatedNOTE Nominal values usually give rise to values to be checked by measurement

41、staking into account specified tolerances.3.5 voltages3.5.1 maximum voltage, Ummaximum sustained power-frequency voltage between phase conductors forwhich the cable is suitable3.5.2 rated voltage, U0nominal power-frequency voltage between conductor(s) and earth for which thecable is suitable3.5.3 ra

42、ted voltage, Unominal power-frequency voltage between phase conductors for which thecable is suitable4 Rated voltageThe cables shall be designated by the rated voltages, U0and U, expressed in theform U0/U.The rated voltages recognized for the purpose of this standard shallbe 600/1 000 V and 1 900/3

43、300 V.NOTE The maximum permitted operating voltages of the system are stated inTable 1.Table 1 Maximum permitted voltages against rated voltage of cableRated voltageof cableMaximum permitted operating voltage of the systema.c. d.c.U0/U Conductor-earth,U0maxConductor-conductor, UmConductor-earth Cond

44、uctor-conductorVV V V V600/1 000 700 1 200 900 1 8001 900/3 300 2 100 3 600 2 700 5 400NOTE Guidance on the selection of cables of appropriate voltage designations for particular systems is givenin A.4.In an alternating current system, the rated voltage of the cable shall be at leastequal to the nom

45、inal voltage of the system for which it is intended.5 ConductorsThe conductors shall be annealed copper, circular or shaped, as given inTable 4 to Table 11 inclusive, and shall conform to the requirements ofBS EN 60228, Class 2.BRITISH STANDARD BS 5467:2016 The British Standards Institution 2016 36

46、Insulation6.1 Type of insulationThe insulation shall be type GP 8 conforming to BS 7655-1.3, or type GP 6conforming to BS 7655-1.2. The manufacturer shall declare which insulation typethe insulation meets.6.2 ApplicationThe insulation shall be applied by an extrusion process and cross-linked. Theins

47、ulation shall be applied either in a single layer, or in a number of layers. Eachindividual layer shall be compact and homogeneous.Where more than one layer is used, the complete insulation shall be tested asthough it were a single layer.NOTE 1 The manufacturer should demonstrate that all insulated

48、cores are, as acontinuous and ongoing part of the manufacturing process, subject to spark testingin accordance with BS EN 62230, using only a.c. or d.c. methods.NOTE 2 Insulation applied in more than one layer does not conform to thedefinition of double insulation given, for instance, in BS 7671.The

49、 manufacturer shall have the option to apply a tape or tapes under and/orover the insulation. These tapes shall not be considered as part of the insulationfor the purposes of testing or measurement.It shall be possible to remove the insulation without damage to the insulationitself or to the conductor. This shall be checked by visual examination.6.3 Thickness of insulationThe mean value of the radial thickness of the insulation, when measured inaccordance w