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本文(ASTM B913-2005(2010) Standard Test Method for Evaluation of Crimped Electrical Connections to 16-Gauge and Smaller Diameter Stranded and Solid Conductors《与16量表和较小直径绞线以及实心导体相连的卷曲电连接.pdf)为本站会员(diecharacter305)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 B913-2005(2010) Standard Test Method for Evaluation of Crimped Electrical Connections to 16-Gauge and Smaller Diameter Stranded and Solid Conductors《与16量表和较小直径绞线以及实心导体相连的卷曲电连接.pdf

1、Designation: B913 05 (Reapproved 2010)Standard Test Method forEvaluation of Crimped Electrical Connections to 16-Gaugeand Smaller Diameter Stranded and Solid Conductors1This standard is issued under the fixed designation B913; the number immediately following the designation indicates the year ofori

2、ginal 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. Scope1.1 This test method establishes the requirements for astandardize

3、d method of evaluating the quality of crimped-typeelectrical connections to solid or stranded conductors. This testmethod applies to 16-gauge and smaller diameter copper wire,coated or uncoated.1.2 This test method is applicable to connection systemsintended for indoor use, or for use in environment

4、ally protectedenclosures. Additional testing may be required to assuresatisfactory performance in applications where high humidityor corrosive environment, or both, may be present.1.3 The values stated in SI units are to be regarded asstandard. No other units of measurement are included in thisstand

5、ard.1.4 This standard does not purport to address all of thesafety concerns, if any, associated with its use. It is theresponsibility of the user of this standard to become familiarwith all hazards including those identified in the appropriateMaterial Safety Data Sheet (MSDS) for this product/materi

6、alas provided by the manufacturer, to establish appropriatesafety and health practices, and determine the applicability ofregulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2B8 Specification for Concentric-Lay-Stranded Copper Con-ductors, Hard, Medium-Hard, or SoftB258 Spe

7、cification for Nominal Diameters and Cross-Sectional Areas of AWG Sizes of Solid Round Wires Usedas Electrical ConductorsB542 Terminology Relating to Electrical Contacts andTheir Use3. Terminology3.1 DefinitionsMany terms related to electrical contactsused in this test method are defined in Terminol

8、ogy B542.3.2 Definitions of Terms Specific to This Standard:3.2.1 crimp, vto establish an electrical and mechanicalattachment between the two members by mechanically deform-ing one contact member around another. In most cases, onemember is a wire or group of wires, the other is a hollowcylinder or p

9、artial cylinder that is deformed around the wires.3.2.2 crimp barrel, crimp tab, nthe portion of the crimpterminal that is deformed in the crimping operation.3.2.3 crimped connection, na mechanical and electricalconnection between a conductor and a component. The con-nection is made by compressing (

10、crimping) the component(crimp barrel) or tab(s) of the component about the conductorusing a tool specifically designed for the purpose3.2.4 crimp terminal, nan electrical component designedto be electrically and mechanically attached to a wire bydeforming a portion of the component in a crimping ope

11、rationto form an attachment to the wire. The other end of the terminalusually has a ring, fork, spade, tab, or related configurationdesigned to attach to another connection such as a screw orterminal block.4. Summary of Test Method4.1 A test lot of test specimens of the crimp terminalcrimped to a sh

12、ort length of wire is prepared. The wire is pulledfrom a group of the specimens in a tensile pull and the forcecompared to set requirements based on wire diameter. Aseparate group of specimens is subjected to an electrical testwhere resistance stability of the specimen is evaluated duringdeflection

13、of the wire at the exit of the crimped connection. Thegroup is then aged for 33 days at 118C and periodicallyretested in the electrical test. The electrical test results arecompared to a standard value based on wire diameter.Atest lotpasses the evaluation if it passes both the mechanical pull testan

14、d the electrical test. In Method B, additional pull tests are1This test method is under the jurisdiction of ASTM Committee B02 onNonferrous Metals and Alloys and is the direct responsibility of SubcommitteeB02.11 on Electrical Contact Test Methods.Current edition approved Oct. 1, 2010. Published Oct

15、ober 2010. Originallyapproved in 2000. Last previous edition approved in 2005 as B913 05. DOI:10.1520/B0913-05R10.2For 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 th

16、e standards Document Summary page onthe ASTM website.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.performed on subgroups of parts during and after the aging testto provide information on progressive degradation in perfor-mance.5.

17、Significance and Use5.1 This test method establishes the requirements for astandardized method of evaluating the performance ofcrimped-type electrical connections having solid or strandedconductors.5.2 In order to achieve a successful crimped connection, thecrimping tool must deform the material of

18、the crimp barrel orbarrel tab(s) around the conductor. As a consequence, theconductor surfaces are placed under compression by the crimpterminal and areas of contact are established between theconductor and the crimp barrel. These areas provide the desiredelectrical connection. A reliable crimped co

19、nnection is one thatis capable of maintaining the contact between the conductorand crimp barrel so that a stable electrical connection ismaintained when it is exposed to the conditions it was designedto endure during its useful life.5.3 Evaluation testing is designed to ensure that a particulardesig

20、n crimped connection system consisting of conductor andcomponent and associated tooling is capable of achieving areliable electrical and mechanical connection. After the evalu-ation is completed, if any change in the system parts is made,the system should be reevaluated using the same procedures.5.4

21、 After completion of the evaluation test, the tensile pullstrength results may be used to develop acceptance require-ments to be used in inspection of subsequent production lots ofcrimped connections. An example of such an acceptancerequirement is shown in Appendix X1.5.5 The aging test, 33 days exp

22、osure at 118C, has beenused in the telecommunications industry to simulate 40 yearsof service at a moderately elevated temperature of 50C, anenvironment that components experience within large banks oftelephone equipment. This environment is similar to that seenin a wide range of electronic systems

23、operating indoorscontaining active components that dissipate power. The test isdesigned to reproduce the stress relaxation of copper alloys insuch service and has been used extensively in evaluating wirewrap connections. It also accelerates other thermally activatedprocesses such as oxidation althou

24、gh their acceleration factorsmay be different from that of copper stress relaxation.5.6 The aging test accelerates stress relaxation processesand other thermally activated processes but does not addresssome other possible hazards such as corrosion. Additionaltesting may be appropriate if the intende

25、d service environmentpresents such hazards.6. Interferences6.1 The wire strain relief included in some crimp terminalsmay mask the performance of the crimped connection to thewire. The strain relief shall be disabled prior to testing thespecimens in this test method.7. Apparatus7.1 Tensile Test Stan

26、d, Load cell and grips, or HoldingFixtures, adequate to measure the force required to pull thecrimp terminal off the wire at the speed specified in this testmethod.7.2 Oscilloscope, with adequate preamplifiers to measuredynamic change of 100 6 10 V. An oscilloscope with arecording device is preferre

27、d as it can provide a permanentrecord of the results.7.3 Fixture with Two Clamps, to securely hold the crimpterminal and end of the wire while making an electricalconnection to each, and allow for manual deflection of the wireat the exit of the crimp terminal through 15 in all directions.A fixture w

28、ith two vise-like clamps mounted about 80 mmapart on an insulating base has proved suitable. Spring clipsoften used with 16 to 24-gauge wire are not adequate; a higherforce clamp is needed.7.4 dc Power Supply, capable of providing 100-mA milli-amps current through the sample with noise or ripple les

29、s than10 V on the measured sample7.5 Oven, capable of maintaining a temperature of 118 62C and with a working volume adequate to contain the crimptest specimens and allow air circulation around them. The ovenshall use air from the indoor environment as the air source, noother humidity control is req

30、uired.8. Test Specimen8.1 Prepare the following quantities of test specimens of thecrimped connection made with the wire and crimp componentto be evaluated. For Test Method A, prepare 64 specimens, forTest Method B, prepare 94 test specimens. For crimpedconnections that will be manufactured with adj

31、ustable crimpdies, prepare 64 (Test Method A) or 94 (Test Method B) testspecimens each made with the smallest and largest die settingto which the dies will be set in the manufacture of the actualconnections. The wire length beyond the crimp barrel shall be200 mm, minimum. In each test method, the 64

32、 or 94specimens provide four extra specimens beyond those actuallyrequired for testing, the remaining four can be used in test setup or retained as examples of the manufactured test specimenssince the testing is destructive. Specifications B8 and B258define wire gauge (diameter) and wire stranding.8

33、.2 Document the following items at the time that thespecimens are prepared:8.2.1 Gauge of wire,8.2.2 Wire conductor stranding,8.2.3 Wire coating or plating,8.2.4 Wire manufacturer,8.2.5 Wire manufacturers part number for the wire used,8.2.6 Type of wire insulation,8.2.7 Terminal supplier name,8.2.8

34、Terminal suppliers part number for the terminal,8.2.9 Crimping tool supplier name,8.2.10 Crimping tool supplier part number, andB913 05 (2010)28.2.11 Crimping tool die setting (if applicable).8.3 The test specimens shall meet the following require-ments:8.3.1 All strands of the conductor(s) shall be

35、 in the crimpbarrel and there shall be no evidence of missing, broken,damaged, or loose strands of the conductor(s).8.3.2 Conductors shall not be pre-soldered or solder-dippedprior to crimping.8.3.3 Wire is to be stripped immediately before crimping fora distance that is proper to full insertion int

36、o the crimp barrel.Strip the other end of the wire for 25 mm to allow forconnection to electrical measuring devices.8.3.4 The crimp indent shall be in the intended position andorientation on the barrel in accordance with the design intent ofthe manufacturers die set and crimp barrel.8.3.5 There shal

37、l be no cracking or rupture in any portion ofthe barrel, tabs, and so forth.8.3.6 The crimp barrel shall show no evidence of re-crimping (double crimping) in the same location. Barrels maybe crimped in more than one location in accordance with themanufactures design.8.3.7 When a terminal is equipped

38、 with an insulation grip orsupport, the wire insulation shall be in its intended positionwithin the grip or support after crimping. The grip or supportshall, as designed, mechanically secure or support the wireinsulation.8.3.8 On pre-insulated terminals or splices, the insulatedsleeve shall remain i

39、n its proper position on the crimp barrelafter crimping and shall not show evidence of cracking orspalling.8.3.9 When sleeving is used to insulate uninsulated crimpedbarrels, the sleeving shall be a snug fit and shall cause noevidence of damage to the wire insulation.8.3.10 The conductor must be ful

40、ly seated in the barrel andmay extend beyond the barrel but not into the tongue area orplug end of terminal lugs to the extent that it will interfere withproper connection of the terminal to another part in the mannerintended.8.3.11 If more than one conductor is crimped in a singlecrimp terminal, th

41、e wires must not be twisted together beforecrimping.9. Procedure9.1 Test Method A:9.1.1 Visual Test of SamplesVisually inspect all test speci-mens to determine if they meet the applicable requirements ofthe Test Specimens section of this test method.9.1.2 Tensile Pull Strength TestPerform the tensil

42、e (pull)strength tests on 30 test specimens in the as-received condition.For multiple wire crimped connections, test (pull) the smallestdiameter wire in the crimp terminal. Prior to applying the pulltest, inactivate any stress relief or crimp, viz. insulation grip, inthe absence of other prior agree

43、ment, so that it does notinfluence the test results. Place the barrel/conductor assemblyin a standard tensile testing device and apply an axial load topull the wire conductor out of the barrel or rupture theconductor. The travel speed of the pull testing head shall beheld to a standard speed of 25 6

44、 5 mm/min. Record themaximum pull applied and failure mode, for example, pull out,wire break, and so forth.9.1.3 Dynamic Voltage Drop Tests:9.1.3.1 Subject 30 remaining specimens to the dynamicvoltage drop tests. Before making voltage drop tests, incapaci-tate any insulation strain relief, and so fo

45、rth, unless otherwiseagreed upon.9.1.3.2 Clamp the crimp terminal and the other end of thewire in the measurement fixture in such a way that the wireposition incorporates enough slack that the movement de-scribed later in this section can be performed. In clamping thecrimp terminal, avoid applying c

46、lamping force to the crimpbarrel. Secure electrical connections shall be established and a100-mA current passed through the wire and crimp barrel. Setthe oscilloscope to a sweep rate of 100 ms/cm and a sensitivitysuch that 100 V provides a vertical deflection of one quarterto three quarters of full-

47、scale. Use ac coupling of the oscillo-scope to the test specimen. While monitoring the voltageacross the connection on the oscilloscope, grasp the wire at apoint approximately 25 mm from the barrel and move itthrough approximately 30 of arc 15 either side of center threetimes. Observe and record the

48、 maximum voltage wave peak topeak observed on the oscilloscope during the wire movement.NOTE 1In the event that a failure occurs, it is recommended that alength of wire of the type in the crimped terminal be tested in the fixtureusing the same measurement system. If a failure is observed with the wi

49、realone, the clamps at each end of the test specimen may be inadequate tohold the parts securely.9.1.3.3 Place the test specimens in an oven where thetemperature is maintained at 118 6 2C. Position them in theoven to allow free circulation of air about them.9.1.3.4 Remove the test specimens from the oven after 24 hand allow them to return to room temperature.9.1.3.5 Repeat the dynamic voltage drop measurement.Record the results.9.1.3.6 Repeat the dynamic voltage drop measurementsafter the samples are baked for 7, 15, and 33 days, cumulative.After the 33-day me

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