ASTM D2861-1987(2004) Standard Test Methods for Flexible Composites of Copper Foil with Dielectric Film or Treated Fabrics《铜箔与介电薄膜或经处理的织物构成的挠性复合材料的试验方法》.pdf

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ASTM D2861-1987(2004) Standard Test Methods for Flexible Composites of Copper Foil with Dielectric Film or Treated Fabrics《铜箔与介电薄膜或经处理的织物构成的挠性复合材料的试验方法》.pdf_第1页
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ASTM D2861-1987(2004) Standard Test Methods for Flexible Composites of Copper Foil with Dielectric Film or Treated Fabrics《铜箔与介电薄膜或经处理的织物构成的挠性复合材料的试验方法》.pdf_第5页
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1、Designation: D 2861 87 (Reapproved 2004)An American National StandardStandard Test Methods forFlexible Composites of Copper Foil with Dielectric Film orTreated Fabrics1This standard is issued under the fixed designation D 2861; the number immediately following the designation indicates the year ofor

2、iginal adoption or, in the case of revision, 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. Scope1.1 These test methods cover procedures for testing flexiblemate

3、rials consisting of copper foil combined with eitherdielectric film or with treated or impregnated fabric to formflexible composites used in the manufacture of flexible ormultilayer circuitry, or both.1.2 The procedures appear as follows:ASTMReferenceProcedure Section MethodConditioning 5Flex Life o

4、f the Composite 20-25Peel Strength of the Composite 11-19Specimen Preparation 6 D 1825Strain Relief Due to Etching 26-32Testing of the Dielectric Portion ofthe Composite 7-10 D 1825,D 2305,D 9021.3 The values stated in inch-pound units are to be regardedas the standard. The values given in parenthes

5、es are forinformation only.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 establish appro-priate safety and health practices and determine the applica-bility of regulatory limitations p

6、rior to use.2. Referenced Documents2.1 ASTM Standards:2D 902 Test Methods for Flexible Resin-Coated Glass Fab-rics and Glass Fabric Tapes Used for Electrical InsulationD 1711 Terminology Relating to Electrical InsulationD 1825 Practice for Etching and Cleaning Copper-CladElectrical Insulating Materi

7、als and Thermosetting Lami-nates for Electrical TestingD 2305 Test Methods for Polymeric Films Used for Elec-trical InsulationD 6054 Practice for Conditioning Electrical Insulating Ma-terials for Testing3. Terminology3.1 Definitions: For definitions of terms used in this stan-dard, refer to Terminol

8、ogy D 1711.4. Selection of Test Specimens4.1 Select specimens for test from portions of material thatare free of obvious defects, unless the purpose of the test is toevaluate these defects.5. Conditioning5.1 Unless otherwise specified, conduct all conditioning andtesting in the standard laboratory a

9、tmosphere specified inPractice D 6054. Condition specimens at least 18 h beforetesting.6. Specimen Preparation6.1 Prepare specimens by etching without scrubbing, usingPractice D 1825. The etching reagents described in PracticeD 1825 may be incompatible with some composite materials.The use of other

10、reagents should be noted in the report for thetest involved.TESTING OF THE DIELECTRIC PORTION OF THECOMPOSITE7. Significance and Use7.1 The electrical and mechanical characteristics of circuitsproduced from flexible composites of copper foil with dielec-tric materials will to a large extent depend o

11、n the properties ofthe dielectric portion of the composite. Measurement of theseproperties is essential for predicting performance of the circuit.1These test methods are under the jurisdiction of ASTM Committee D09 onElectrical and Electronic Insulating Materials and are the direct responsibility of

12、Subcommittee D09.07 on Flexible and Rigid Insulating Materials.Current edition approved Feb. 27, 1987. Published April 1987. Originallyapproved in 1970. Last previous edition approved in 1987 as D 2861 82.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer S

13、ervice 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 C700, West Conshohocken, PA 19428-2959, United States.8. Test Specimen8.1 Take specimens as req

14、uired from a sample that has beenetched free of copper foil in accordance with Section 6. Takethe thickness from the material that remains after etching.9. Procedure9.1 If the dielectric portion of the composite is a film, usethe procedures described in Test Methods D 2305.9.2 If the dielectric port

15、ion of the composite is a treatedfabric, use the procedures described in Test Methods D 902.10. Precision and Bias10.1 This test method has been in use for many years, but nostatement of precision has been available and no activity isplanned to develop such a statement. A statement of bias is notapp

16、licable in view of the lack of a standard reference materialfor this property.PEEL STRENGTH OF THE COMPOSITE11. Significance and Use11.1 The peel strength between copper foil and the dielectricmaterial determines to what degree the composite can with-stand processing and remain intact during service

17、.11.2 Flexible composites generally require more elaboratemeans for proper support during peel testing than do rigid,copper-clad laminates. The selection of the proper procedurewill depend on the nature of the composite being tested, asshown by the following methods:11.2.1 Method A, Clamped Between

18、Plates This testmethod is generally used when the material tested is not soflexible or slippery that it allows the substrate to deflect duringthe test.11.2.2 Method B, Using Adhesive Tape This test methodis used principally for its convenience, but is limited to caseswhere the peel strength of the m

19、aterial is not so great as toallow lifting of the substrate from the plate during removal ofthe copper.11.2.3 Method C, Free-turning DrumThis test method isalso primarily used for its convenience, and is applicable whereit is desired to prevent lifting of the dielectric material from theplate during

20、 removal of the copper.12. Apparatus12.1 Force-Measuring InstrumentA strain gage, dial-typeforce meter, or similar instrument sensitive to 0.05 lbf (0.2 N).12.2 Chart Recorder (optional)recording instrument ca-pable of converting the force measured in 12.1 to a graphicalrecord.12.3 Peeling Mechanism

21、A device capable of peeling thecopper from the dielectric at an angle of 90 to the specimen ata rate of 2 6 0.1 in. (50 6 3 mm)/min.12.4 Specimen HolderA device for clamping the speci-men flat and in the correct position for testing with a minimumof the dielectric left unsupported. A device equivale

22、nt to thatshown in Fig. 1 is required.13. Test Specimen13.1 Unless otherwise specified, prepare the test specimensto be a 2.5-in. (62-mm) square of the composite on which thepattern shown in Fig. 2 is etched in accordance with Section 6.The dielectric portion may be trimmed to conveniently fit theap

23、paratus being used.13.2 Orient the pattern so that the long direction of thecopper strips is either machine direction or cross-machinedirection as required.14. Method AClamped Between Plates14.1 Clamp the test specimen between the plates as shownin Fig. 1. Mount the plate horizontally.14.2 Carefully

24、 initiate the removal of each of the copperstrips by lifting the12-in. (13-mm) land and peeling back toabout 1 in. (25 mm).14.3 Attach the free end of the strip to the force indicator bymeans of a clamp equipped with knurled jaws and a chain. Peelthe strip the remaining 1-in. (25-mm) length at a rat

25、e of 2.0 60.1 in. (50 6 3 mm)/min. Repeat for each copper strip.14.4 Determine the average peel force for each strip asfollows:14.4.1 If a recording instrument is used, determine theaverage peel force by the midpoint of a straight line that bestfits the chart record.14.4.2 If no recording instrument

26、 is used, take a visualreading every 5 s during the peeling and average the readings.FIG. 1 Device for Holding Peel Specimen for Method AD 2861 87 (2004)215. Method BUsing Adhesive Tape15.1 Attach the test specimen to a flat surface using asuitably backed pressure-sensitive adhesive tape. Mount thes

27、urface horizontally. Apply the tape in such manner it extendsat least 0.2 in. (5 mm) beyond the edges of the copper strip,taking care to avoid the inclusion of dirt or air bubbles.15.2 Initiate removal of the copper strip and peel in accor-dance with the procedure of 14.3 and determine the averagepe

28、el force in accordance with 14.4.16. Method CFree-Turning Drum16.1 Select a test specimen 2.5 in. (62 mm) wide by 10 in.(250 mm) long. Wrap the specimen around a 3-in. (75-mm)diameter drum as shown in Fig. 3, with the longer dimensionin the direction of winding. Position the tension bars andsprings

29、as indicated.16.2 Initiate the removal of the copper strip and peel inaccordance with the procedure of 14.3 and determine theaverage peel force in accordance with 14.4.17. Calculation17.1 Divide the average peel force in pounds-force (new-tons) by the width of the peeled strip in inches (millimetres

30、) toobtain the average peel strength for the strip in pounds-forceper inch (newtons per millimetre) width.18. Report18.1 Report the following information:18.1.1 Material identification and specimen orientation,whether machine- or cross-machine direction,18.1.2 The nature of the etching material, if

31、different thanthat specified in Practice D 1825,18.1.3 Conditioning, if different from that specified inSection 5,18.1.4 Method of recording the average peel force,18.1.5 Test method used, (A, B, or C), and18.1.6 Peel strength values for each specimen.19. Precision and Bias19.1 This test method has

32、been in use for many years, but nostatement of precision has been available and no activity isFIG. 2 Peel Strength Test SpecimenFIG. 3 Drum-Type Peel Strength Jig for Method CD 2861 87 (2004)3planned to develop such a statement. A statement of bias is notapplicable in view of the lack of a standard

33、reference materialfor this property.FLEX LIFE OF THE COMPOSITE20. Significance and Use20.1 Flexible copper foil composites are frequently used inapplications where repeated flexing occurs during assembly, orduring normal use, or both. The occurrence of a break in thecopper foil would render the mate

34、rial useless.21. Apparatus21.1 Flat Plates, two parallel nonconducting, with clampsso arranged that a motor-driven crank and connecting rod willoscillate one of the plates parallel to the other at no more than10 cpm with a 2-in. (50-mm) stroke.21.2 Mechanical Counter, arranged to record total number

35、of cycles.21.3 Low-Voltage Relay Circuit that will shut off the motorwhen a break occurs.22. Test Specimen22.1 Prepare rectangular specimens 2 by 5 in. (50 by 125mm) then etch the pattern shown in Fig. 4 in accordance withSection 6. Cut the etched specimen lengthwise to provide a pairof specimens, e

36、ach with 8 conductors.23. Procedure23.1 Attach leads to the lands in the test specimen andclamp the ends to opposite surfaces so that the conductors runparallel to the oscillation and a rolling loop is produced on thespecimen without flexing it at the clamps. Adjust the apparatusso that the inside d

37、iameter of the rolling loop is14 6116 in.(6.4 6 1.6 mm). Connect the leads into the lowvoltage circuitso that a break in the pattern will stop the test. Run the test untila discontinuity occurs. Unless otherwise specified, the copperpattern shall be on the concave side of one specimen and on theconv

38、ex side of the other one in the pair. See Fig. 5.24. Report24.1 Report the following information:24.1.1 Material identification and specimen orientation,whether machine- or cross-machine direction,24.1.2 The nature of the etching material, if different thanthat specified in Practice D 1825,24.1.3 Co

39、nditioning, if different than that specified in Sec-tion 5,24.1.4 The number of cycles until a break occurs, and24.1.5 Whether the copper pattern was on the concave orconvex side.25. Precision and Bias25.1 This test method has been in use for many years, but nostatement of precision has been availab

40、le and no activity isplanned to develop such a statement. A statement of bias is notapplicable in view of the lack of a standard reference materialfor this property.STRAIN RELIEF DUE TO ETCHING26. Significance and Use26.1 Strains in the composite caused by shrinkage of thedielectric or by mechanical

41、 or thermal stresses during manu-facture of the composite may be relieved during etching awayof the copper or during subsequent drying, solvent washing, orsoldering steps. Such strain relief could lead to distortion andmisregistration of etched circuit patterns, as well as wrinklingof the dielectric

42、 areas where the foil was removed.27. Apparatus27.1 Apparatus suitable for measuring distances of about 6in. (150 mm) between markings without application of distort-ing force on a specimen that is held flat. An optical comparatoris recommended. The degree of resolution of dimensionalreadings will l

43、argely determine the precision possible with thistest method.27.2 Ameans for maintaining the specimen in a flat positionwithout interfering with the dimensional reading, and withoutapplying distorting forces parallel to the plane of the specimen.A perforated vacuum plate or a pair of transparent pla

44、tes maybe used with success when an optical comparator is employed.28. Test Specimens28.1 Prepare 7-in. (175-mm) square test specimens of thecomposite to be tested.NOTE 1The dimensional tolerances apply to the negative or silkscreen used to generate the pattern.FIG. 4 Flexibility Test Pattern FIG. 5

45、 Diagram of Specimen Arrangement for Flexibility TestD 2861 87 (2004)429. Procedure29.1 On the copper side of the specimen make four marks,numbered 1 to 4 clockwise at the four corners of a 6-in.(150-mm) square pattern centered on the specimen, using a felttip pen.29.2 Use a sharp-needle point to ma

46、ke a pin prick about0.005 in. (0.13 mm) in diameter at about the center of each ofthe marks in 29.1.29.3 Mount the specimen using the apparatus of 27.2 andobtain distance measurements with the apparatus of 27.1.Record the distances between pin prick marks 1 and 2, 2 and 3,3 and 4, and 4 and 1.29.4 U

47、se14-in. (6.4-mm) square pieces of etchant-resistantpressure-sensitive tape to mask the areas marked with the pinpricks. Add an extra square on the corner nearest the No. 1position to identify this position after etching.29.5 Etch the specimen free of copper except wheremasked, using the procedure i

48、n Section 5. Remove the maskingmaterials without disturbing the pin prick marks.29.6 Repeat the measurements described in 29.3, using themasked corner to identify Position 1.29.7 Additional measurements may be obtained after vari-ous other conditionings of the specimen as desired.30. Calculation30.1

49、 Calculate the strain relief coefficient for each pair ofpoints as follows:S 5 D22 D1!/D1(1)where:S = strain relief, in./in. (mm/mm),D1= distance measured before etching, andD2= distance measured after etching and conditioning.31. Report31.1 Report the following information:31.1.1 Material identification,31.1.2 Conditioning, if other than specified in Section 4,31.1.3 Strain relief coefficients obtained from each pair ofpoints, and31.1.4 Material direction in which each coefficient wasmeasured; that, is, longitudinal or transverse direction withrespect to the com

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