1、Designation: B 888 06Standard Specification forCopper Alloy Strip for Use in Manufacture of ElectricalConnectors or Spring Contacts1This standard is issued under the fixed designation B 888; the number immediately following the designation indicates the year oforiginal adoption or, in the case of re
2、vision, the year of last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon (e) indicates an editorial change since the last revision or reapproval.1. Scope*1.1 This specification establishes the requirements for cop-per alloy strip for use in the manufactu
3、re of electrical connec-tors or spring contacts produced from one of the followingCopper Alloy UNS Nos.2: C14530, C15100, C15500, C17000,C17200, C17410, C17450, C17460, C17500, C17510,C19010, C19025, C19210, C19400, C19500, C19700,C23000, C26000, C40810, C40850, C40860, C42200,C42500, C42520, C42600
4、, C50580, C50780, C51000,C51080, C51100, C51180, C51980, C52100, C52180, C52480,C63800, C65400, C68800, C70250, C70260, C70265,C75200, and C76200.1.2 The requirements for the other copper alloys such ascopper-nickel-tin spinodal, UNS C72650, C72700, andC72900, shall be as prescribed in the current e
5、dition ofSpecification B 740.1.3 The values stated in either inch-pound units or SI unitsare to be regarded separately as standard. The values stated ineach system may not be exact equivalents; therefore, eachsystem shall be used independently of the other. Combiningvalues from the two systems may r
6、esult in noncompliance withthis specification.2. Referenced Documents2.1 ASTM Standards:3B 193 Test Method for Resistivity of Electrical ConductorMaterialsB 248 Specification for General Requirements for WroughtCopper and Copper-Alloy Plate, Sheet, Strip, and RolledBarB 248M Specification for Genera
7、l Requirements forWrought Copper and Copper-Alloy Plate, Sheet, Strip, andRolled Bar MetricB 601 Classification for Temper Designations for Copperand Copper AlloysWrought and CastB 740 Specification for Copper-Nickel-Tin Spinodal AlloyStripB 820 Test Method for Bend Test for Determining theFormabili
8、ty of Copper and Copper Alloy StripB 846 Terminology for Copper and Copper AlloysE8 Test Methods for Tension Testing of Metallic MaterialsE8M Test Methods for Tension Testing of Metallic Mate-rials MetricE54 Test Methods for Chemical Analysis of SpecialBrasses and Bronzes4E62 Test Methods for Chemic
9、al Analysis of Copper andCopper Alloys (Photometric Methods)E75 Test Methods for Chemical Analysis of Copper-Nickeland Copper-Nickel-Zinc AlloysE 478 Test Methods for Chemical Analysis of CopperAlloysE 527 Practice for Numbering Metals and Alloys (UNS)2.2 ISO Standards:ISO 4744 Copper and Copper All
10、oysDetermination ofChromium ContentFlame Atomic Absorption Spectro-metric Method5ISO 7602 Copper and Copper AlloysDetermination ofTellurium Content53. Terminology3.1 DefinitionsFor definition of terms used in this speci-fication, refer to Terminology B 846.4. General Requirements4.1 For product furn
11、ished under this specification in Englishunits, the following sections of Specification B 248 mustconstitute a part of this specification. For product furnishedunder this specification in the SI units, the following sectionsof Specification B 248M must constitute a part of this specifi-cation.1This
12、specification is under the jurisdiction of Committee B05 on Copper andCopper Alloys and is the direct responsibility of Subcommittee B05.01 on Plate,Sheet, and Strip.Current edition approved March 15, 2006. Published March 2006. Originallyapproved in 1998. Last previous edition approved in 2004 as B
13、 888 04.2The UNS system for copper and copper alloys (see Practice E 527) is a simpleexpansion of the former standard designation system accomplished by the additionof a prefix “c” and a suffix “00.” The suffix can be used to accommodatecomposition variations of the base alloy.3For referenced ASTM s
14、tandards, 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.4Withdrawn.5Available from American National Standards Institute (ANSI), 25 W. 43rd
15、 St.,4th Floor, New York, NY 10036.1*A Summary of Changes section appears at the end of this standard.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.4.1.1 Terminology,4.1.2 Materials and Manufacture,4.1.3 Dimensions, Weights, and Per
16、missible Variations,4.1.4 Workmanship, Finish, and Appearance,4.1.5 Sampling,4.1.6 Number of Tests and Retests,4.1.7 Specimen Preparation,4.1.8 Test Methods,4.1.9 Significance of Numerical Limits,4.1.10 Certification,4.1.11 Test Reports, and4.1.12 Packaging and Package Marking.4.2 In the event of a
17、conflict between this specification andSpecification B 248 or B 248M, the requirements of thisspecification shall take precedence.5. Classification5.1 Product produced to this specification is classified asstrip material to be used for spring contact or electrical andelectronic connector application
18、s only.6. Ordering Information6.1 Contract or purchase orders for product under thisspecification should include the following information:6.1.1 ASTM designation and year of issue,6.1.2 UNS alloy designation,6.1.3 Dimensions, for example, thickness, width,6.1.4 Quantity, and6.1.5 Temper (Section 8).
19、6.2 The following options are available under this specifi-cation and shall be specified in the contract or purchase orderwhen required:6.2.1 Type of edge: slit, sheared, sawed, square corners,rounded corners, rounded edges, or full-rounded edges (Sec-tion 11),6.2.2 Width and straightness tolerances
20、, slit-metal toler-ances, square-sheared metal tolerances, sawed metal toler-ances, straightened or edge-rolled metal tolerances (Section11),6.2.3 Identification marking (Section 22),6.2.4 Certification (Section 20),6.2.5 Mill test report (Section 21), and6.2.6 How packaged: coil wound in traverse o
21、r pancakestyle (Section 22).6.2.6.1 Number of strip lengths per coil,6.2.6.2 Size and weight of each coil, and6.2.7 The electrical resistivity or any other physical andelectrical properties (See Table X1.1).7. Materials and Manufacture7.1 MaterialThe material of manufacture shall be a castbar, slab,
22、 cake, billet, or other form of the composition given inTable 1 for the specified alloy, suitable for processing into theproduct prescribed in this specification.7.2 ManufactureThe product shall be produced by eitherhot- or cold-working operation. It shall be finished, unlessotherwise specified, by
23、such hot working, cold working,annealing, or heat treatment as may be necessary to meet theproperties specified in Table 2.7.3 EdgesThe edges shall be slit or rolled edges asspecified by the buyer. Slit edges shall be furnished unlessotherwise specified or agreed upon between the purchaser andsuppli
24、er or manufacturer.8. Chemical Composition8.1 The materials shall conform to the chemical composi-tional requirements in Table 1 for the corresponding CopperAlloy UNS Number designation specified in the orderinginformation.8.2 These composition limits do not preclude the presenceof other elements. L
25、imits for unnamed elements may beestablished and analysis required by agreement between manu-facturer or supplier and purchaser when required.8.3 Copper, when given as the remainder, is determined asthe difference between the sum of results for all elementsdetermined and 100 %.8.4 Zinc, when given a
26、s the remainder, is determined as thedifference between the sum of results for all elements deter-mined and 100 %.8.4.1 For those copper alloys in which zinc is given as theremainder, copper may be determined by difference; however,when so determined, the result shall conform to the limitsprescribed
27、 in Table 1.8.5 When a chemical analysis is performed as specified inthe ordering information, for the Copper Alloy UNS No. inTable 1, copper plus the sum of the named elements shall be asspecified in the appropriate table footnote.B888062TABLE1ChemicalRequirementsElementsComposition,%CopperAlloyUNS
28、No.CopperAlum -inumBeryll-iumCobaltIronLeadMagnes-iumMangan-eseNickelPhos-phorusTinZincChromiumZirconiumSiliconSilverTellur-iumC1453099.90Amin0.0010.0100.0030.0230.0030.023C15100B99.80Cmin0.050.15C1550099.75Cmin0.080.130.0400.0800.0270.10C17000DremainderC0.20max1.601.790.20Emin0.20maxC17200Dremainde
29、rC0.20max1.802.000.20Emin0.20maxC17410DremainderC0.20max0.150.500.350.60.20max0.20maxC17450DremainderC0.20max0.150.500.20max0.501.00.25max0.50%max0.20maxC17460DremainderC0.20max0.150.500.20 max1.01.40.25max0.50%max0.20maxC17500DremainderC0.20max0.40.72.42.70.10max0.20maxC17510DremainderC0.20max0.20.
30、60.3max0.10max1.42.20.20maxC19010DremainderC0.81.80.010.050.150.35C19025FremainderC0.10max0.81.20.030.070.71.10.20maxC19210Gremainder0.050.150.0250.04C19400G97.0min2.12.60.03max0.0150.150.050.20C19500G96.0min0.02max0.301.31.02.00.02max0.010.350.101.00.20maxC19700Gremainder0.05max0.301.20.05max0.010.
31、200.05max0.05max0.100.400.20max0.20maxC23000G84.0-86.00.05 max0.05maxremainderC26000F68.5-71.50.05 max0.07maxremainderC40810F94.5-96.50.080.120.05max0.110.200.0280.041.82.2remainderC40850F94.5-96.50.050.200.05max0.050.200.010.202.64.0remainderC40860F94.0-96.00.010.050.05max0.050.200.020.041.72.3rema
32、inderC42200F86.0-89.00.05max0.05max0.35max0.81.4remainderC42500F87.0-90.00.05max0.05 max0.35max1.53.0remainderC42520F88.0-91.00.050.200.05max0.050.200.010.201.53.0remainderC42600F87.0-90.0C0.050.200.05max0.05 0.20H0.010.202.54.0remainderC50580Dremainder0.050.200.05max0.050.200.010.351.01.70.30maxC50
33、780Dremainder0.050.200.05max0.050.200.010.351.72.30.30maxB888063TABLE1ContinuedElementsComposition,%CopperAlloyUNSNo.CopperAlum -inumBeryll-iumCobaltIronLeadMagnes-iumMangan-eseNickelPhos-phorusTinZincChromiumZirconiumSiliconSilverTellur-iumC51000Dremainder0.10max0.05max0.030.354.25.80.30maxC51080Dr
34、emainder0.050.200.05max0.050.200.010.354.85.80.30maxC51100Dremainder0.10 max0.05max0.030.353.54.90.30maxC51180Dremainder0.050.200.05max0.050.200.010.353.54.90.30maxC51980Dremainder0.050.200.05max0.050.200.010.355.57.00.30maxC52100Dremainder0.10 max0.05max0.030.357.09.00.20maxC52180Dremainder0.050.20
35、0.05max0.050.200.010.357.09.00.30maxC52480Dremainder0.050.200.05max0.050.200.010.359.0 11.00.30maxC63800DremainderC2.5-3.10.250.550.20max0.05 max0.10max0.20max0.8max1.52.1C65400DremainderC0.05 max1.21.90.50max0.010.122.73.4C68800DremainderC3.0-3.8I0.250.550.20 max0.05 max21.324.1IC70250DremainderC0.
36、20 max0.05max0.050.300.10max2.2 4.2H1.0max0.251.2C70260DremainderC1.0 3.0H0.010max0.200.7C70265DremainderC0.05max1.03.0H0.01max0.050.80.30max0.200.7C75200D63.0-66.5C0.25 max0.05max0.50max16.5 19.5HremainderC76200D57.0-61.0C0.25 max0.10max0.50max11.013.5HremainderAIncludessilver+tin+tellurium+seleniu
37、m.BCopper+thesumofthenamedelementsshallbe99.9%min.CCoppervalueincludessilver.DCopper+thesumofthenamedelementsshallbe99.5%min.ENickel+cobalt,0.20%min;nickel+iron+cobalt,0.6%max.FCopper+thesumofthenamedelementsshallbe99.7%min.GCopper+thesumofthenamedelementsshallbe99.8%min.HIncludescobalt.IAluminum+zi
38、nc=25.127.1.B888064TABLE 2 Mechanical RequirementsTemper Designation Tensile Strength, ksi Tensile Strength, MPaYield Strength(0.2 % Offset), ksiYield Strength(0.2 % Offset),MPaElongation, %Standard Former min max min max min min minCopper Alloy UNS NO. C14530H0114 hard 35 45 240 310 26 180 7H0212 h
39、ard 40 50 275 345 33 230 5H0334 hard 44 54 305 370 39 270 3H04 hard 47 57 325 395 43 295 2H06 extra hard 50 60 345 415 47 325 1H08 spring 54 64 370 440 51 350 1H10 extra spring 58 . . . 400 . . . 56 385 . . .Copper Alloy UNS NO. C15100O61 annealed 37 42 255 290 9 60 35H0114 hard 40 45 275 310 26 180
40、 11H0212 hard 43 51 295 350 35 240 3H0334 hard 47 56 325 385 45 310 1H04 hard 53 62 365 425 51 350 1H06 extra hard 59 65 405 450 57 395 1H08 spring 64 71 440 490 62 425 1Copper Alloy UNS NO. C15500O61 annealed 34 43 235 295 15 105 30H0212 hard 45 55 310 380 38 260 13H04 hard 56 64 385 440 50 345 6H0
41、6 extra hard 63 72 435 495 56 385 5H08 spring 65 73 450 505 60 415 4H10 extra spring 68 75 470 515 63 435 3Copper Alloy UNS NO. C17000TB00 A 60 78 410 540 30 210 35TD0114 H 75 88 520 610 60 415 15TD0212 H 85 100 590 690 75 520 9TD04 H 100 130 690 900 90 620 2TF00 AT 150 180 1030 1240 130 900 3TH0114
42、 HT 160 190 1100 1310 135 930 2.5TH0212 HT 170 200 1170 1380 145 1000 1TH04 HT 180 210 1240 1450 155 1070 1AM TM00 100 110 690 760 70 480 1814 HM TM01 110 120 760 830 80 550 1512 HM TM02 120 135 830 930 95 660 12HM TM04 135 150 930 1030 110 760 9SHM TM05 150 160 1030 1100 125 860 9XHM TM06 155 175 1
43、070 1210 135 930 3Copper Alloy UNS NO. C17200TB00 A 60 78 410 540 30 210 35TD0114 H 75 88 520 610 60 415 20TD0212 H 85 100 590 690 75 520 12TD04 H 100 130 690 900 90 620 2TF00 AT 165 195 1140 1340 140 970 4TH0114 HT 175 205 1210 1410 150 1030 3TH0212 HT 185 215 1280 1480 160 1100 2TH04 HT 190 220 13
44、10 1520 165 1140 1AM TM00 100 110 690 760 70 480 1614 HM TM01 110 120 760 830 80 550 1512 HM TM02 120 135 830 930 95 660 12HM TM04 135 150 930 1030 110 760 9SHM TM05 150 160 1030 1100 125 860 9XHM TM06 155 175 1070 1210 135 930 4XHMS TM08 175 190 1210 1310 150 1030 3Copper Alloy UNS NO. C17410TH0212
45、 HT 95 115 665 790 80 550 10TH04 HT 110 130 760 895 100 690 7Copper Alloy UNS NO. C17450TH0212 HT 95 115 655 790 80 550 12Copper Alloy UNS NO. C17460B888065TABLE 2 ContinuedTemper Designation Tensile Strength, ksi Tensile Strength, MPaYield Strength(0.2 % Offset), ksiYield Strength(0.2 % Offset),MPa
46、Elongation, %Standard Former min max min max min min minTH0334 HT 115 135 790 930 95 655 11TH04 HT 120 140 825 965 105 720 10Copper Alloy UNS NO. C17500TB00 A 35 55 240 380 25 170 20TD04 H 70 85 480 585 55 380 3TF00 AT 100 120 690 830 80 550 10TH04 HT 110 130 760 900 95 655 8HTR 120 150 830 1030 110
47、 760 1HTC 75 85 512 590 50 340 8Copper Alloy UNS NO. C17510TB00 A 35 55 240 380 25 170 20TD04 H 70 85 480 585 55 380 2TF00 AT 100 120 690 830 80 550 10TH04 HT 110 140 760 965 95 655 8Copper Alloy UNS NO. C19010TM0334 HM 67 77 460 520 50 340 12TM04 HM 71 81 490 560 60 410 10TM06 XHM 75 86 520 590 64
48、440 8TM08 SHM 84 . . . 580 . . . 74 510 6H0114 hard 52 64 360 430 40 275 8H0212 hard 60 70 410 470 54 370 7H0334 hard 67 77 460 520 62 410 5H04 hard 71 81 490 560 66 435 4H06 extra hard 75 86 520 590 72 460 3H08 spring 84 95 580 655 78 520 2H10 extra spring 95 . . . 655 . . . 85 585 1Copper Alloy UN
49、S NO. C19025HR0114 hard 49 68 340 470 42 290 15HR0212 hard 63 76 435 525 58 400 9HR04 hard 72 83 495 570 68 470 5HR06 extra hard 78 89 540 615 74 510 4HR08 spring 84 95 580 655 81 560 . . .HR10 extra spring 91 106 625 730 88 605 . . .Copper Alloy UNS NO. 19210O61 annealed 27 42 190 290 16 110 30H0114 hard 43 53 300 365 20 135 20H0212 hard 47 60 325 410 44 310 5H0334 hard 52 62 355 425 50 345 4H04 full hard 56 66 385 455 54 355 3H0
