ASTM D1049-1998(2010) Standard Specification for Rubber Insulating Covers《橡胶绝缘封盖物的标准规范》.pdf

上传人:diecharacter305 文档编号:509170 上传时间:2018-12-01 格式:PDF 页数:7 大小:103.63KB
下载 相关 举报
ASTM D1049-1998(2010) Standard Specification for Rubber Insulating Covers《橡胶绝缘封盖物的标准规范》.pdf_第1页
第1页 / 共7页
ASTM D1049-1998(2010) Standard Specification for Rubber Insulating Covers《橡胶绝缘封盖物的标准规范》.pdf_第2页
第2页 / 共7页
ASTM D1049-1998(2010) Standard Specification for Rubber Insulating Covers《橡胶绝缘封盖物的标准规范》.pdf_第3页
第3页 / 共7页
ASTM D1049-1998(2010) Standard Specification for Rubber Insulating Covers《橡胶绝缘封盖物的标准规范》.pdf_第4页
第4页 / 共7页
ASTM D1049-1998(2010) Standard Specification for Rubber Insulating Covers《橡胶绝缘封盖物的标准规范》.pdf_第5页
第5页 / 共7页
亲,该文档总共7页,到这儿已超出免费预览范围,如果喜欢就下载吧!
资源描述

1、Designation: D1049 98 (Reapproved 2010)Standard Specification forRubber Insulating Covers1This standard is issued under the fixed designation D1049; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year of last revision. A numbe

2、r in parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.This standard has been approved for use by agencies of the Department of Defense.1. Scope1.1 This specification covers acceptance testing of rubberinsul

3、ating covers for use as portable protective devices forprotection of workers from accidental contact with live elec-trical conductors, apparatus, or circuits. It includes insulatorhoods, dead-end protectors, line hose connectors, cable endcovers, and miscellaneous covers. The electrical, physical, a

4、ndchemical requirements of this specification shall apply also toany new or modified styles of covers that may be developed forspecific purposes.1.2 Three types of covers, differing in chemical and physicalcharacteristics, are provided, and are designated as Type I,non-resistant to ozone, and Type I

5、I and Type III, resistant toozone.1.3 Five classes of covers, differing in electrical character-istics, are provided, and are designated as Class 0, Class 1,Class 2, Class 3, and Class 4.1.4 Five styles of covers, differing in design characteristics,are provided, and are designated as Style A, Style

6、 B, Style C,Style D, and Style E.NOTE 1Because of the use requirements some covers are semi-rigidand others flexible.The flexible devices should remain suitably flexible forapplication and removal through normal temperatures of 29 to 54.5C(20 to 130F).1.5 This standard does not purport to address al

7、l of thesafety concerns, if any, associated with its use. It is theresponsibility of the user of this standard to establish appro-priate safety and health practices and determine the applica-bility of regulatory limitations prior to use. See 18.2.2. Referenced Documents2.1 ASTM Standards:2D297 Test

8、Methods for Rubber ProductsChemicalAnaly-sisD412 Test Methods for Vulcanized Rubber and Thermo-plastic ElastomersTensionD573 Test Method for RubberDeterioration in an AirOven3. Terminology3.1 Definitions of Terms Specific to This Standard:3.1.1 breakdownthe electrical discharge or arc occurringbetwe

9、en the electrodes and through the equipment being tested.3.1.2 flashoverthe electrical discharge or arc occurringbetween electrodes and over or around, but not through, theequipment being tested.3.1.3 ozonea very active form of oxygen that may beproduced by corona, arcing, or ultraviolet rays.3.1.4

10、ozone cutting and checkingthe cutting action pro-duced by ozone on rubber under mechanical stress into a seriesof interlacing cracks.3.1.5 rubbera generic term that includes elastomers andelastomeric compounds, regardless of origin.3.1.6 user as used in 4.3.1, the entity employing theactual worker(s

11、) using the equipment; if no separate employer,then the individual.3.1.7 voltage, maximum usethe ac voltage (rms) rating ofthe protective equipment that designates the maximum nominaldesign voltage of the energized system that may be safelyworked. The nominal design voltage is equal to the phase top

12、hase voltage on multiphase circuits.3.1.7.1 DiscussionIf there is no multiphase exposure in asystem area and the voltage exposure is limited to phase(polarity on dc systems) to ground potential, the phase (polarityon dc systems) to ground potential shall be considered to be thenominal design voltage

13、. If electrical equipment and devices areinsulated, or isolated, or both, such that the multiphase expo-sure on a grounded wye circuit is removed, then the nominaldesign voltage may be considered as the phase-to-groundvoltage on that circuit.3.1.8 voltage, nominal designa nominal value consistentwit

14、h the latest revision on ANSI C84.1, assigned to the circuitor system for the purpose of conveniently designating itsvoltage class.1This specification is under the jurisdiction of ASTM Committee F18 onElectrical Protective Equipment for Workers and is the direct responsibility ofSubcommittee F18.25

15、on Insulating Cover-Up Equipment. This standard replacesANSI Standard J6.2, which is no longer available.Current edition approved Oct. 1, 2010. Published November 2010. Originallypublished in 1949 as D1049 49 T. Last previous edition approved in 2002 asD1049 98 (2002)e1. DOI: 10.1520/D1049-98R10.2Fo

16、r referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C70

17、0, West Conshohocken, PA 19428-2959, United States.4. Significance and Use4.1 This specification covers the minimum electrical,chemical, and physical properties guaranteed by the manufac-turer and the detailed procedures by which such properties areto be determined. The purchaser may at his option p

18、erform orhave performed any of these tests in order to verify theguarantee. Claims for failure to meet the specification aresubject to verification by the manufacturer.4.2 Insulating covers are used for personal protection;therefore, when authorizing their use, a margin of safety shallbe provided be

19、tween the maximum voltage at which they areused and the proof-test voltage at which they are tested. Therelationship between proof-test voltage and the maximumvoltage at which insulating covers shall be used is shown inTable 1.4.3 Work practices vary from user to user, depending uponmany factors. Th

20、ese may include, but are not limited to,operating system voltages, construction design, work proce-dures and techniques, weather conditions, and so forth. There-fore, except for the restrictions set forth in this specificationbecause of design limitations, the use and maintenance of thisequipment is

21、 beyond the scope of this specification.4.3.1 It is common practice and the responsibility of the userof this type of protective equipment to prepare completeinstructions and regulations to govern the correct and safe useof such equipment.5. Classification5.1 Covers included under this specification

22、 shall be desig-nated as Type I, Type II, or Type III; Class 0, Class 1, Class 2,Class 3, or Class 4; StyleA, Style B, Style C, Style D, or StyleE.5.1.1 Type I, non-resistant to ozone, made from a high-gradecis-1,4-polyisoprene rubber compound of natural or syntheticorigin, properly vulcanized.5.1.2

23、 Type II, ozone resistant, made of any elastomer orcombination of elastomeric compounds.5.1.3 Type III, ozone-resistant, made of any combination ofelastomer and thermoplastic polymer, elastic in nature.5.1.4 ClassThe class designation shall be based on theelectrical properties and design characteris

24、tics as shown inTable 2 or Table 3.5.1.5 StyleThe style designation shall describe the item,size, and device or apparatus covered, protected, or connected.5.1.5.1 Style A designates insulator hoods.5.1.5.2 Style B designates dead end protectors.5.1.5.3 Style C designates line hose connectors.5.1.5.4

25、 Style D designates cable end covers.5.1.5.5 Style E designates miscellaneous covers.6. Ordering Information6.1 Orders for covers under this specification should includethe following information:6.1.1 Type,6.1.2 Class, and6.1.3 Either the style and item number or the size, insidediameter, outside di

26、ameter, and length of the covers.6.2 The listing of types, classes, styles, and item numbers isnot intended to mean that all shall necessarily be available frommanufacturers; it signifies only that, if made, they shallconform to the details of this specification.7. Manufacture and Marking7.1 Each co

27、ver shall be marked clearly and permanentlywith the name of the manufacturer or supplier, ANSI/ASTMD1049, type, and class.7.1.1 Covers may be marked by either molding the infor-mation directly into the cover or by use of a label; eithermethod is equally acceptable. The method shall be at thediscreti

28、on of the manufacturer. If a label is used, the color shallbe that specified for each voltage class: Class 0red, Class1white, Class 2yellow, Class 3green, and Class4orange.8. Chemical and Physical Requirements8.1 The cover material shall conform to the tensile strengthrequirements in Table 2 or Tabl

29、e 1, the accelerated aging in5.1.3 and, for Type I covers, the determination of rubberpolymer in accordance with 19.1.1.TABLE 1 Proof-Test/Use Voltage RelationshipNOTE 1The ac voltage (rms) classification of the protective equip-ment designates the maximum nominal design voltage of the energizedsyst

30、em that may be safely worked. The nominal design voltage is equal to:1. The phase to phase on multiphase circuits or2. The phase to ground voltage on single phase grounded circuits.Class ofInsulatingCoversNominal MaximumUse Voltage,APhase-Phaseac, rmsAC Proof-Test Voltage,rms VDC Proof-Test Voltage,

31、avg, V0 1 000 5 000 20 0001 7 500 10 000 40 0002 17 000 20 000 50 0003 26 500 30 000 60 0004 36 000 40 000 70 000AExcept for Class O equipment, the maximum use voltage is based on thefollowing formula:Maximum use voltage (maximum nominal design voltage)0.95 acproof-test voltage 2000D1049 98 (2010)29

32、. Electrical Requirements9.1 Each cover, when selected in accordance with Section13 shall withstand the 60-Hz ac proof-test voltage (rms value)or the dc proof-test voltage (average value) specified in Table2 or Table 3. The proof test shall be performed in accordancewith Section 18 and shall be appl

33、ied continuously for 3 min.9.2 Type II and Type III covers shall show no visible effectsfrom corona or ozone when tested in accordance with 18.5.TABLE 3 CoversType II and Type III SpecificationsInsulator HoodsStyle AItemNumberAType In-sulatorInsulatorDiameter,in.InsulatorHeight, in.Hose Size,in.Leng

34、th,mm(in.), minHeight,mm (in.),minTensile,MPa (psi),minClassac Proof-Test Volt-age, Vdc Proof-Test Volt-age, VSuggestedElectrodeGroup1 pin 4 4 1 375 (14.75) 159 (6.25) 4.82 (700) 2 20 000 30 000 232 pin 6 5 1 406 (16.0) 159 (6.25) 4.82 (700) 2 20 000 30 000 233 pin 7 6 114 112 406 (16.0 (wide) 162 (

35、6.375) 4.82 (700) 2 and 3 30 000 40 000 234 pin 10 12 212 483 (19.0) 406 (16.0) 6.89 (1000) 4 40 000 60 000 235pin 1 612 267 (10.5 (ID) 165 (6.5) 4.82 (700) 3 30 000 40 000 236 pin 834 534 112 212 381 (15.0) 216 (8.5) 6.89 (1000) 4 40 000 60 000 237 post 6.5 834 112 212 317 (12.5) 298 (11.75) 6.89 (

36、1000) 3 30 000 40 000 238 post 6.5 13 112 212 317 (12.5) 400 (15.75) 6.89 (1000) 4 40 000 60 000 23Dead End ProtectorsStyle BItemNumberATypeInsulatorInsulatorDiameterHose Size,in.Sleeve Length,mm in.Tensile,MPa (psi), minClassac Proof-TestVoltage, Vdc Proof-TestVoltage, VSuggestedElectrodeGroup1 dis

37、k or deadend414 any size(adapters)254 (10.0) 4.82 (700) 2 and 3 30 000 40 000 232 disk or deadend414 any size(adapters)457 (18.0) 4.82 (700) 2 and 3 30 000 40 000 233 disk or deadend6 1 457 (18.0) 4.82 (700) 2 20 000 30 000 234 disk or deadend414 112 212 940 (37.0) 4.82 (700) 4 40 000 50 000 235 dis

38、k or deadend7112 212 624 (24.5) 11.0 (1600) 4 40 000 50 000 236 disk or deadend10 112 212 624 (24.5) 11.0 (1600) 4 40 000 50 000 23TABLE 2 CoversType I SpecificationsInsulator HoodsStyle AItemNumberATypeInsulatorInsulatorDiameter,in.Hose Size,in.Length,mm (in.),minHeight, mm(in.), minTensile,MPa (ps

39、i),minClassac Proof-Test Volt-age, Vdc Proof-Test Volt-age, VSuggestedElectrodeGroupB1 pin 4 1 375 (14.75) 159 (6.25) 11.0 (1600) 2 20 000 30 000 22 pin 6 1 406 (16.0) 159 (6.25) 11.0 (1600) 2 20 000 30 000 23pin714 ,112 406 (16.0) 162 (6.375) 11.0 (1600) 2 and 3 30 000 40 000 2Dead End ProtectorsSt

40、yle BItemNumberATypeInsulatorInsulatorDiameter,in.Hose Size,in.Inside Diame-ter, mm (in.)SleeveLength,mm (in.)Tensile,MPa (psi), minClassac Proof-Test Volt-age, Vdc Proof-Test Volt-age, VSuggestedElectrodeGroupB1 disk or deadend414 any size(adapters)121 (4.75) 254 (10) 11.0 (1600) 2 20 000 30 000 22

41、 2 disk or 2 deadend414 any size(adapters)121 (4.75) 457 (18) 11.0 (1600) 2 20 000 30 000 23 disk or deadend6 1 165 (6.5) 457 (18) 11.0 (1600) 2 20 000 30 000 2Line Hose ConnectorsStyle CItemNumberAHose Size,in.Length,mm (in.)Tensile,MPa (psi), minClassac Proof-TestVoltage, Vdc Proof-TestVoltage, VS

42、uggested Elec-trode GroupB1 1 305 (12.0) 11.0 (1600) 2 20 000 30 000 22114 305 (12.0) 11.0 (1600) 2 20 000 30 000 23112 305 (12.0) 11.0 (1600) 3 30 000 40 000 2AItem numbers are provided for convenient referencing.BSuggested electrode groups for ac tests only.D1049 98 (2010)3TABLE 3 ContinuedLine Ho

43、se ConnectorsStyle CItem NumberAHose Size, in. Length, mm (in.)Tensile, MPa (psi),minClassac Proof-TestVoltage, Vdc Proof-TestVoltage, VSuggested Elec-trode Group1 1 305 (12.0) 4.82 (700) 2 20 000 30 000 232114 305 (12.0) 4.82 (700) 2 20 000 30 000 233112 305 (12.0) 4.82 (700) 3 30 000 40 000 234112

44、 267 (10.5) 4.82 (700) 4 40 000 50 000 235212 267 (10.5) 4.82 (700) 4 40 000 50 000 23Cable End CoversStyle DItemNumberAInsideDiameter,mm (in.)Length,mm (in.)ConductorSizeTensile,MPa (psi), minClassac Proof-TestVoltage, Vdc Proof-TestVoltage, VSuggestedElectrodeGroupCable end caps size1 13 (0.5) 152

45、 (6.0) #12 to #6 10.3 (1500) 2 20 000 30 000 12 21 (0.81) 152 (6.0) #4 to 4/0 10.3 (1500) 2 20 000 30 000 13 19 (0.75) 178 (7.0) #10 to #4 10.3 (1500) 2 20 000 30 000 14 35 (1.375) 254 (10.0) #4/0 to 500 MCM 10.3 (1500) 2 20 000 30 000 15 57 (2.25) 305 (12.0) 350 MCM to 750 MCM 10.3 (1500) 2 20 000

46、30 000 16 81 (3.19) 406 (16.0) 800 MCM to 1000MCM10.3 (1500) 2 20 000 30 000 1Separator size7 25 (1.0) 76 (3.0) . 10.3 (1500) 2 20 000 30 000 18 38 (1.5) 108 (4.25) . 10.3 (1500) 2 20 000 30 000 19 62 (2.44) 114 (4.5) . 10.3 (1500) 2 20 000 30 000 110 70 (2.75) 152 (6.0) . 10.3 (1500) 2 20 000 30 00

47、0 1Test caps size11 16 (0.63) 152 (6.0) . 10.3 (1500) 2 20 000 30 000 12312 24 (0.94) 152 (6.0) . 10.3 (1500) 2 20 000 30 000 12313 19 (0.75) 178 (7.0) . 10.3 (1500) 2 20 000 30 000 12314 35 (1.38) 254 (10.0) . 10.3 (1500) 2 20 000 30 000 12315 57 (2.25) 305 (12.0) . 10.3 (1500) 2 20 000 30 000 1231

48、6 76 (3.0) 406 (16.0) . 10.3 (1500) 2 20 000 30 000 12317 127 (5.0) 762 (30.0) . 4.82 (700) 4 40 000 60 000 12318 152 (6.0) 1016 (40.0) . 4.82 (700) 4 40 000 60 000 123Miscellaneous CoversStyle EItemNum-berALength, mm(in.), minWidth, mm(in.), minHeight, mm(in.), minDiameter orDepth,mm (in.)Tensile,

49、MPa(psi),minClassac Proof-Test Volt-age, Vdc Proof-Test Volt-age, VSuggestedElectrodeGroup1 Spade cover 203 (8.0) 57 (2.25) 114 (4.5) . 6.9 (1000) 1 and 2 20 000 30 000 232 Spade cover 254 (10.0) 72 (3.0) 153 (6.0) 432 (17.0 (flat) 6.9 (1000) 1 and 2 20 000 30 000 233 Box-type cutouts . . . 533 (21.0 (flat) 10.3 (1500) 2 20 000 30 000 1234 Box-type cutouts . . . 165 (6.5) 10.3 (1500) 2 20 000 30 000 1235 Through bolt . . 102 (4.0) . 10.3 (1500) 2 20 000 30 00

展开阅读全文
相关资源
猜你喜欢
相关搜索

当前位置:首页 > 标准规范 > 国际标准 > ASTM

copyright@ 2008-2019 麦多课文库(www.mydoc123.com)网站版权所有
备案/许可证编号:苏ICP备17064731号-1