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本文(ASTM D4565-2010 Standard Test Methods for Physical and Environmental Performance Properties of Insulations and Jackets for Telecommunications Wire and Cable《通信电缆用绝缘层和护套的物理和环境性能特性的标.pdf)为本站会员(proposalcash356)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

ASTM D4565-2010 Standard Test Methods for Physical and Environmental Performance Properties of Insulations and Jackets for Telecommunications Wire and Cable《通信电缆用绝缘层和护套的物理和环境性能特性的标.pdf

1、Designation: D4565 10An American National StandardStandard Test Methods forPhysical and Environmental Performance Properties ofInsulations and Jackets for Telecommunications Wire andCable1This standard is issued under the fixed designation D4565; the number immediately following the designation indi

2、cates the year oforiginal adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.1. Scope*1.1 These test methods cover procedures for t

3、he physicaltesting of thermoplastic insulations and jackets used on tele-communications wire and cable and the testing of physicalcharacteristics and environmental performance properties ofcompleted products. To determine the procedure to be used onthe particular insulation or jacket or on the compl

4、eted wire orcable, reference should be made to the specification for thatproduct.1.2 The test methods appear in the following sections of thisstandard:Procedure SectionsDimensional measurements of insulations, jackets,miscellaneous cable components, and of completed cable 4-9Cross-sectional areas 9D

5、iameters 6Eccentricity 8Thickness 7Physical and environmental tests of insulation and jackets 10-25Aging test (jackets only) 24Cold bend (insulation only) 16Environmental stress crack (polyolefin jackets only) 21Heat distortion (jackets only) 22Heat shock (jackets only) 23Insulation adhesion 19Insul

6、ation and jacket shrinkback (oven test) 14Insulation compression 20Insulation shrinkback (solder test) 15Melt flow rate changepolyolefin materials 12Oil immersion test (jackets only) 25Oxygen induction time (polyolefin insulation only) 17Oxygen induction time (cable filling compound only) 18Tensile

7、and elongation tests 13Physical and environmental tests of insulations and jackets ofcompleted wire and cable 26-42Cable Torsion Test 38Compound flow test (filled core wire and cable only) 42Corrugation extensibility test 36Cable impact test 33Jacket bonding tests 29Procedure SectionsJacket notch te

8、st 32Jacket peel or pull 28Jacket slip strength test 30Pressure test (air core wire and cable only) 40Sheath adherance test 31Water penetration test (filled core wire and cable only) 41Wire and cable bending test 34Wire breaking strength 371.3 The values stated in inch-pound units are to be regarded

9、as standard. The values given in parentheses are mathematicalconversions to SI units that are provided for information onlyand are not considered standard, except where only SI units aregiven.1.4 This standard does not purport to address all of thesafety concerns, if any, associated with its use. It

10、 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. For specific cautionstatement see 19.1.2. Referenced Documents2.1 ASTM Standards:2D471 Test Method for Rubber PropertyEffe

11、ct of LiquidsD638 Test Method for Tensile Properties of PlasticsD1238 Test Method for Melt Flow Rates of Thermoplasticsby Extrusion PlastometerD1248 Specification for Polyethylene Plastics ExtrusionMaterials for Wire and CableD1693 Test Method for Environmental Stress-Cracking ofEthylene PlasticsD26

12、33 Test Methods for Thermoplastic Insulations andJackets for Wire and CableD3032 Test Methods for Hookup Wire InsulationD4731 Specification for Hot-Application Filling Com-pounds for Telecommunications Wire and CableD4732 Specification for Cool-Application Filling Com-pounds for Telecommunications W

13、ire and CableE29 Practice for Using Significant Digits in Test Data toDetermine Conformance with Specifications1These test methods are under the jurisdiction of ASTM Committee D09 onElectrical and Electronic Insulating Materials and are the direct responsibility ofSubcommittee D09.18 on Solid Insula

14、tions, Non-Metallic Shieldings and Coveringsfor Electrical and Telecommunication Wires and Cables.Current edition approved May 1, 2010. Published June 2010. Originallyapproved in 1986. Last previous edition approved in 2004 as D456599(2004)1.DOI: 10.1520/D4565-10.2For referenced ASTM standards, visi

15、t 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.1*A Summary of Changes section appears at the end of this standard.Copyright ASTM International,

16、100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.E171 Specification for Atmospheres for Conditioning andTesting Flexible Barrier Materials3. Terminology3.1 Definitions of Terms Specific to This Standard:3.1.1 air coreproducts in which the air spaces betweencable co

17、re components (pairs, etc.) remain in their unfilled ornatural state.3.1.2 armored wire or cablea wire or cable in which theshielded or jacketed or shielded and jacketed wire or cable iscompletely enclosed by a metallic covering designed to protectthe underlying telecommunications elements from mech

18、anicaldamage.3.1.2.1 DiscussionShielding or armoring, or both may beselected from a variety of materials (for example, aluminum,copper, steel) and may be applied in a variety of ways (forexample, helically wrapped, longitudinally applied, appliedcorrugated or smooth).3.1.3 cable, telecommunicationsp

19、roducts of six or morepair.3.1.4 DODan abbreviation for “Diameter over Dielec-tric.” This is a short term to refer to the overall diameter overan insulated conductor.3.1.5 filled corethose products in which air spaces arefilled with some materials intended to exclude air or moisture,or both.3.1.6 go

20、pher-resistanta wire or cable that resists theattack of gophers when installed directly buried.3.1.6.1 DiscussionTelecommunications wire and cableproducts intended for direct burial in the earth are normallyrated as either “gopher-resistant” or “non-gopher-resistant.”User selection of products for b

21、urial will depend upon theanticipated gopher protection needed for the planned installa-tion site. The gopher-resistant rating is assigned based upontest evaluations (evaluations are commonly performed by theFish and Wildlife Service, US Department of the Interior,Denver, CO).3.1.7 non-gopher-resist

22、anta wire or cable that is notdesigned to resist gopher attack (see 3.1.6).3.1.8 pairtwo insulated conductors combined with atwist.3.1.9 sheaththe jacket and any underlying layers ofshield, armor, or other intermediate material down to but notincluding the core wrap.3.1.10 shielded wire or cablea wi

23、re or cable in which thecore (or inner jacket) is completely enclosed by a metalliccovering designed to shield the core from electrostatic orelectromagnetic interference.3.1.11 wire, telecommunicationsproducts containing lessthan six pair.DIMENSIONAL MEASUREMENTS OFINSULATIONS, JACKETS, MISCELLANEOU

24、SCABLE COMPONENTS AND COMPLETEDCABLES4. Scope4.1 Dimensional measurements include, but are not limitedto measurements of insulation and jacket thicknesses, tape andarmor thicknesses, conductor diameters, DODs, core diam-eters, overall diameters, etc.5. Significance and Use5.1 Dimensional measurement

25、s, properly interpreted, pro-vide information with regard to the conductors, insulation, orjacket. The dimensional measurements provide data for re-search and development, engineering design, quality control,and acceptance or rejection under specifications.6. Diameters6.1 Measure diameters of essent

26、ially round items (such asinsulated or uninsulated conductors) using any type of mi-crometer reading to at least 0.001 in. (0.025 mm) with eachdivision of a width that facilitates estimation of each measure-ment to 0.0001 in. (0.0025 mm). Take a minimum of tworeadings, essentially at right angles to

27、 each other, and averagethe results.6.2 In case of dispute, optical methods as described in TestMethods D3032 shall be used as the referee method.NOTE 1For insulated conductors with dual insulation (for example,foam-skin), the DOD of the inner layer must be measured using the opticalmethods of Test

28、Methods D3032.6.3 Measure the approximate or effective diameters ofnon-circular cross sections (such as, irregular or oval cables orcable cores) by the use of strap gauges.6.4 Precision and BiasThe precision and bias of thismethod for measuring diameters are in accordance with TestMethods D2633.7. T

29、hicknesses7.1 Measure insulation thickness using appropriate methodsspecified in Test Methods D2633, except that the micrometeraccuracy described in 6.1 is required. A pin gauge having theaccuracy of the micrometers as specified in 6.1 is acceptablefor thickness measurements made on tubular sections

30、 ofinsulation removed from conductors. Optical methods (asspecified in 6.2) are also permitted.7.2 Measure jacket thickness using appropriate methodsspecified in Test Methods D2633, except that the micrometeraccuracy specified in 6.1 is required. In determining thethickness of jackets applied over c

31、orrugated shields or armors,measurements must be made in the corrugation impressions(thinnest jacket spots). Optical methods (as specified in 6.2) arealso permitted.7.3 Precision and BiasThe precision and bias of thismethod for measuring thickness are in accordance with TestMethods D2633.NOTE 2For d

32、esignated purposes (such as, process control, etc.),continuous uniformity thickness gauges or measuring devices may beemployed during processing to provide running records of jacket thick-nesses. Record charts are normally maintained for a minimum of sixmonths.8. Eccentricity8.1 Calculate eccentrici

33、ty using measured thickness valuesfor insulation or jacket, or both.8.2 Calculate absolute eccentricity, Eab, of insulation orjacket, or both as follows:D4565 102Eab5 Maximum Thickness! 2 Minimum Thickness! (1)8.3 Calculate percent eccentricity, E%, of insulation orjacket, or both as follows:E%5Max

34、Thickness! 2 Min Thickness!Average Thickness!3 100 %! (2)8.4 Precision and BiasThe precision and bias of thismethod of measuring eccentricity are in accordance with TestMethods D2633.9. Cross-Sectional Areas9.1 When needed, determine cross-sectional areas (usuallyinsulations or jackets only) using t

35、he methods outlined in TestMethods D2633, except that the dimensions used in thecalculations must be maintained to the accuracy specified in6.1.9.2 Precision and BiasThe precision and bias of thismethod for measuring cross-section areas are as specified inTest Methods D2633.PHYSICAL AND ENVIRONMENTA

36、L TESTS OFINSULATIONS AND JACKETS10. Scope10.1 Physical and environmental tests for insulations andjackets include, but are not limited to determination of some orall of the properties covered in Sections 12-25.11. Significance and Use11.1 Physical tests, properly interpreted, provide informa-tion w

37、ith regard to the physical properties of the insulation orjacket. The physical test values give an approximation of howthe insulation will physically perform in its service life.Physical tests provide data for research and development,engineering design, quality control, and acceptance or rejectionu

38、nder specifications.12. Melt Flow Rate ChangePolyolefin Materials12.1 Raw Material BaselineMelt flow rate for insulationand jacket materials obtained from finished cable must becompared with the flow rates for corresponding raw materials.Determine the flow rates for the basic insulating and jacketin

39、graw materials in accordance with the requirements of TestMethod D1238. Standard conditions of test shall be as pre-scribed by the product specification. If possible, obtain samplesof raw materials before or during the extrusion process (but notafter heating). Since insulating and jacketing raw mate

40、rials arenormally obtained and used in bulk, it is usually difficult if notimpossible to relate a particular lot of raw material with aparticular reel of finished wire or cable; accordingly, averageraw materials values shall be established as necessary for anappropriate manufacturing time frame, unl

41、ess otherwise agreedupon between the producer and the purchaser.12.2 Insulation MaterialPerform tests on insulation re-moved from finished conductors. Note that thin wall and finegauge insulations shall be handled carefully because of en-trapped air. In the case of insulation in filled cable, thepre

42、ferred method is to obtain insulating material from conduc-tors before they are exposed to the filling operation. Ifnecessary, conductors obtained from completed filled cableshall be wiped dry and free of grease or foreign material usinga dry cloth (without solvent). Chop the insulation, strippedfro

43、m a conductor, as necessary to obtain specimens suitable fortesting (approximately3gofmaterial is required for each test).Test the chopped material as required byTest Method D1238 todetermine a melt flow rate. Run three tests and average theresults. Standard conditions of test shall be as indicated

44、in 12.1.12.3 Jacket MaterialJacket material used for this testmust be free of filling or flooding compound. Soft filling orflooding compounds shall be removed by thoroughly wipingthe jacket specimen using a clean dry cloth (without solvent);harder filling or flooding compounds shall be removed bycut

45、ting. Buffing is permitted to be used as a finishing operationto ensure clean and dry specimens. Use jacketing materialremoved from completed cable for performing tests. Chop thejacket material removed from the cable as is necessary toobtain specimens suitable for testing (approximately3gofmaterial

46、is required for each test). Test the chopped material asrequired by Test Method D1238 to determine a melt flow rate.Run three tests and average the results. Standard conditions oftest shall be as indicated in 12.1.12.4 CalculationCalculate the percent increase in flowrate as follows:I 5M22 M1M13 100

47、 (3)where:I = increase, %,M1= melt index of raw material, andM2= melt index of material from the finished cable.12.5 Precision and BiasThe precision and bias of thismethod for measuring melt-flow rate changes are basically inaccordance with Test Method D1238.13. Tensile and Elongation Tests13.1 Insu

48、lation MaterialProvide test specimens by re-moving insulation from finished conductors. (See Test Speci-men section of Test Methods D2633 for methods of removingthe conductor.) Perform tests in accordance with Test MethodD638 to determine such properties as tensile strength (nomi-nal), yield strengt

49、h, and percentage elongation at break. Thespeed of testing shall be as prescribed by the product specifi-cations.13.2 Jacket MaterialProvide test specimens by die cut-ting jacket segments removed (cut) from finished cable. Per-form testing in accordance with Test Method D638 to deter-mine such properties as tensile strength (nominal), yieldstrength and percentage elongation at break. The speed oftesting shall be as prescribed in the product specifications.13.3 Precision and BiasThe precision and bias of thesemethods for measuring tensile and elon

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