1、Designation: D 2116 02Standard Specification forFEP-Fluorocarbon Molding and Extrusion Materials1This standard is issued under the fixed designation D 2116; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year of last revision.
2、 A number in parentheses indicates the year of last reapproval. Asuperscript epsilon (e) 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. Scope *1.1 This specification covers melt processable moldi
3、ng andextrusion materials of FEP-fluorocarbon resin. This specifica-tion does not cover recycled FEP materials. These FEP resinsare copolymers of tetrafluoroethylene and hexafluoropropyleneor modified FEP-fluorocarbon resins containing not more than2 % by weight of other fluoromonomers.1.2 The value
4、s stated in SI units as detailed in IEEE/ASTMSI-10 are to be regarded as the standard. The values given inparentheses are for information only.NOTE 1Although this specification and ISO 12086-1 andISO 12086-2 differ in approach or detail, data obtained using either aretechnically equivalent.1.3 The f
5、ollowing precautionary caveat pertains only to thetest methods portion, Section 11, of this specification. Thisstandard does not purport to address all of the safety concerns,if any, associated with its use. It is the responsibility of the userof this standard to establish appropriate safety and hea
6、lthpractices and determine the applicability of regulatory limita-tions prior to use.2. Referenced Documents2.1 ASTM Standards:D 150 Test Methods for A-C Loss Characteristics andPermittivity (Dielectric Constant) of Solid Electrical Insu-lating Materials2D 618 Practice for Conditioning Plastics for
7、Testing3D 638 Test Method for Tensile Properties of Plastics3D 792 Test Methods for Density and Specific Gravity (Rela-tive Density) of Plastics by Displacement3D 883 Terminology Relating to Plastics3D 1238 Test Method for Flow Rates of Thermoplastics byExtrusion Plastometer3D 1600 Terminology for A
8、bbreviated Terms Relating toPlastics3D 3295 Specification for PTFE Tubing4D 3418 Test Method for Transition Temperatures of Poly-mers by Thermal Analysis4D 3892 Practice for Packaging/Packing of Plastics4E 691 Practice for Conducting an Interlaboratory Study toDetermine the Precision of a Test Metho
9、d5IEEE/ASTM SI-10 Use of the International System of Units(SI): The Modern Metric System62.2 ISO Standards:7ISO 12086-1:1995 PlasticsFluoropolymer Dispersionsand Moulding and Extrusion MaterialsPart 1ISO 12086-2:1995 PlasticsFluoropolymer Dispersionsand Moulding and Extrusion MaterialsPart 23. Termi
10、nology3.1 Definitions:3.1.1 GeneralThe definitions given in TerminologyD 883 are applicable to this specification.3.1.2 lot, none production run or a uniform blend of twoor more production runs.3.2 Abbreviated Terms:3.2.1 GeneralThe abbreviated terms given in Terminol-ogy D 1600 are applicable to th
11、is specification.4. Classification4.1 This specification covers four types of FEP-fluorocarbon resin supplied in pellet form classified accordingto their melt flow rate.4.2 A one-line system shall be used to specify materialscovered by this specification. The system uses predefined cellsto refer to
12、specific aspects of this specification, illustrated asfollows:1This specification is under the jurisdiction of ASTM Committee D20 onPlastics and is the direct responsibility of Subcommittee D20.15 on ThermoplasticMaterials (Section D20.15.12).Current edition approved December 10, 2002. Published Feb
13、ruary 2003. Origi-nally approved in 1962. Last previous edition approved in 1997 as D 2116 - 97.2Annual Book of ASTM Standards, Vol 10.01.3Annual Book of ASTM Standards, Vol 08.01.4Annual Book of ASTM Standards, Vol 08.02.5Annual Book of ASTM Standards, Vol 14.02.6Available from ASTM International,
14、100 Barr Harbor Drive, PO Box C700,West Conshohocken, PA 194282959.7Available from American National Standards Institute (ANSI), 25 W. 43rd 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
15、 C700, West Conshohocken, PA 19428-2959, United States.SpecificationStandard Number : Type : SpecialBlock : : notes: ,Example: Specification D 2116 XX, IFor this example, the line callout would be SpecificationD 2116 XX, I and would specify an FEP-fluorocarbon resinthat has all of the properties lis
16、ted for that type, grade, and classin the appropriate specified properties or tables, or both, in thespecification identified. A comma is used as the separatorbetween the standard number and the type.8A provision forspecial notes is included so that other information can beprovided when required. Wh
17、en special notes are used, precedethem with a comma.5. General Requirements5.1 The materials shall be of uniform composition and soprepared as to conform to the requirements of this specifica-tion.5.2 The material described in this specification shall be freeof foreign matter to such a contamination
18、 level as is agreedupon between the purchaser and the seller.6. Detail Requirements6.1 The average test result of the lot shall conform to therequirements prescribed in Table 1 and Table 2 when tested bythe procedures specified herein. Table 2 lists those testsrequiring a specimen molded as describe
19、d in Section 8.7. Sampling7.1 Sampling shall be statistically adequate to satisfy re-quirements of 13.1.1.8. Test Specimens8.1 Prepare a molded sheet 1.5 6 0.3 mm (0.0606 0.010in.) thick. Use a picture-frame-type chase having a suitableblanked-out section and thickness to produce the desired sheet.U
20、se clean aluminum foil, 0.13 to 0.18 mm (0.005 to 0.007 in.)thick, in contact with the resin. A high-temperature moldrelease agent shall be sprayed on the aluminum foil to helpprevent the foil from sticking to the sheet. Use steel moldingplates at least 1.0 mm (0.040 in.) thick and of an area adequa
21、teto cover the chase.8.2 Lay down and smoothly cover one plate with a sheet ofaluminum foil. Place the mold chase on top of this assembly.Place within the mold chase sufficient molding material toproduce the required sheet in such a manner that the polymercharge is a mound in the middle of the chase
22、. Place a secondsheet of aluminum foil on top of the granules and add the topmold plate. Place the assembly in a compression molding presshaving platens that have been heated to 372 6 5C (702 69F).8.3 Bring the platens to incipient contact with the moldassembly. Hold for 2 to 4 min without pressure.
23、 Applyapproximately 1 MPa (145 psi) and hold for 1 to 1.5 min. Thenapply 2 to 4 MPa (290 to 580 psi) and hold for 1 to 1.5 min.Maintain the press at 372 6 5C (7026 9F) during thesesteps. Remove the assembly from the press and place betweentwo 20 6 7-mm (0.75 6 0.25-in.) steel plates whose tempera-tu
24、re is less than 40C (104F).8.4 When the sheet is cool enough to touch (about 50 to60C (122 to 140F), remove aluminum foil from the sheet. (Ifthe sheet is allowed to cool to room temperature, the aluminumfoil cannot be pulled free.)8See the ASTM Form and Style Manual, available from ASTM Headquarters
25、.TABLE 1 Detail Requirements for Test on Molding MaterialsTypeITypeIITypeIIITypeIVMelt flow rate, g/10 min:Load, 5000 g:Min 4.0 12.0 0.8 2.0Max 12.0 . 2.0 3.9TABLE 2 Detail Requirements for Molded Test SpecimensType I Type II Type III Type IVSpecific gravity 23/23C (73/73F)Min 2.12 2.12 2.12 2.12Max
26、 2.17 2.17 2.17 2.17Melting point, C 260 6 20 260 6 20 260 6 20 260 6 20Tensile strength, 23C (73F), min:MPa 17.3 14.5 20.7 18.7psi 2500 2100 3000 2700Elongation, 23C (73F), min, % 275 240 275 275Dielectric constant, max:At 103Hz 2.15 2.15 2.15 2.15At 106Hz 2.15 2.15 2.15 2.15Dissipation factor, max
27、:At 103Hz 0.0003 0.0003 0.0003 0.0003At 106Hz0.0007 0.0009 0.00070.0007D21160229. Conditioning9.1 For tests of specific gravity and tensile properties,condition the molded test specimens in accordance withProcedure A of Practice D 618 for a period of at least 4 h priorto test. The other tests requir
28、e no conditioning.9.2 Conduct tests at the Standard Laboratory Temperature of23 6 2C (73.4 6 3.6F) for determination of specific gravityand tensile properties only. Since this resin does not absorbwater, the maintenance of constant humidity during testing isnot necessary. Conduct tests for melt flow
29、 rate and meltingpoint under ordinary laboratory conditions.10. Packaging and Marking10.1 PackagingThe resin pellets shall be packaged instandard commercial containers so constructed as to ensureacceptance by common or other carriers for safe transportationto the point of delivery, unless otherwise
30、specified in thecontract or order.10.2 MarkingShipping containers shall be marked withthe name of the material, type, and quantity contained therein.10.3 All packing, packaging, and marking provisions ofPractice D 3892 shall apply to this specification.11. Test Methods11.1 Melt Flow Rate:11.1.1 Prin
31、ciple of Test MethodThe melt flow rate isdetermined at 372 6 1C using Procedure A or B described inTest Method D 1238. The extrusion plastometer to be used isdescribed in Test Method D 1238 modified by use of corrosionresistant alloy for the barrel lining, orfice, piston tip, and orficesecuring devi
32、ce.9Use pellets or pieces of approximately thesame size cut from molded or extruded forms. Strips about 6mm (14 in.) by 76 mm (3 in.) long also load readily into thebarrel. Refer to Table 2 or Table 3 of Test Method D 1238 forthe amount of charge which shall be adjusted accordingly withmelt density
33、of FEP being used. Usually the charge amount is5 to 15 g. Flow rate is measured using a load of 5000 g. Collectfive successive cuts for the manual method.11.2 Specific GravityDetermine the specific gravity on aspecimen approximately 25.4 by 38 mm (1 by 1.5 in.) blankedor cut from the molded plaque (
34、Section 8) in accordance withthe procedures described in Test Methods D 792. Add 2 dropsof a wetting agent to the water in order to reduce the surfacetension and ensure complete wetting of the specimen.11.3 Melting Point:11.3.1 Melting Characteristics by Thermal AnalysisUsedifferential scanning calo
35、rimetry (DSC) as described in TestMethod D 3418 for this determination. For specification pur-poses, the test shall be run on a 10 6 2-mg specimen cut froma pellet of the resin as sold or received. The heating rate shallbe 10 6 1C (18 6 1.8F)/min. Two peaks during the initialmelting test are observe
36、d occasionally. In this case, the peaktemperatures shall be reported as Tlfor the lower temperatureand Tufor the upper temperature. The peak temperature of thepeak largest in height shall be reported as the melting point ifa single value is required. If a peak temperature is difficult todiscern from
37、 the curves, that is, if the peak is rounded ratherthan pointed, straight lines shall be drawn tangent to the sidesof the peak. The temperature corresponding to the point wherethese lines intersect beyond the peak shall be taken as the peaktemperature.11.4 Tensile PropertiesCut five bars with the mi
38、crotensiledie shown in Fig. 1. The die shall be of the steel rule or solidmetal type of curvature of 5 6 0.5 mm (0.2 6 0.02 in.).Average the test results. Determine the tensile properties inaccordance with the procedures described in Test MethodD 638, except that the specimens used shall be as detai
39、led inSection 8, the initial jaw separation shall be 22.2 6 0.13 mm(0.875 6 0.005 in.), and the speed of testing shall be 50 6 5mm/min (26 0.2 in./min). Clamp the specimen with essentiallyequal lengths in each jaw. Determine the elongation from thechart, expressing it as a percentage of the initial
40、jaw separa-tion.9NOTE 2In determining elongation from the chart, drop a perpendicu-lar from the break point to the time axis. Measure the distance along thetime axis from the foot of this perpendicular to the beginning of theload-time curve. Then,Elongation, % 5 100d/22.2 or 0.875!m (1)where:d = dis
41、tance on chart, mm (in.),m = chart speed magnification,= chart speed/crosshead speed (both in same units), and22.2 = factor when d is in millimetres, or0.875 = factor when d is in inches.In making the test for tensile properties a full-scale load of 22.5 kg (50lb) has been found suitable. If specime
42、ns break quickly, increase the chartspeed so that each curve covers at least 51 mm (2 in.) on the time axis ofthe chart.11.5 Precision and Bias:1011.5.1 PrecisionTable 3 is based on a round robin con-ducted in 19851986 in accordance with Practice E 691,involving seven materials tested by six laborat
43、ories. For eachmaterial, the sheeting from which the test specimens were to becut was obtained from one source. Using a steel rule die, oneset of test specimens for each laboratory was cut by one of thelaboratories. Sheeting and a duplicate die were furnished eachparticipating laboratory and used to
44、 cut a second set of testspecimens. Each test result was the average of five individualdeterminations. Each laboratory obtained four test results oneach material, two test results each on the specimens furnishedand two on the specimens cut by the laboratory doing thetesting.11.5.1.1 The properties u
45、sed in the analysis are tensilestrength and elongation at break.NOTE 3Caution: The following explanations of Irand IR(11.5.1.4-11.5.1.6) are intended only to present a meaningful way of considering theapproximate precision of this test method. Do not apply rigorously thedata in Table 3 to the accept
46、ance or rejection of material as those data arespecific to the round robin and may not be representative of other lots,9“Stellite” Grade No. 19, Haynes-Stellite Co., Kokomo, IN and“ Duranickel”No. 301, International Nickel Co., 67 Wall St., New York, NY 10005, have beenfound resistant to fluorocarbo
47、n resins.10Supporting data are available from ASTM Headquarters.D2116023NOTE 1All Dimensions are in millimetres.FIG. 1 Microtensile DieD2116024conditions, materials, or laboratories.11.5.1.2 Users of this test method shall apply the principlesoutlined in Practice E 691 to generate data specific to t
48、heirlaboratory and materials, or between specific laboratories. Theprinciples of 11.5.1.4-11.5.1.6 would then be valid for suchdata.11.5.1.3 Concept of Irand IRIf CVrand CVRhave beencalculated from a large enough body of data, and for testresults:11.5.1.4 Ir: RepeatabilityIn comparing two test resul
49、ts forthe same material, obtained by the same operator using thesame equipment on the same day, the two test results shall bejudged not equivalent if they differ by more than the Irvalue forthat material.11.5.1.5 IR: ReproducibilityIn comparing two test resultsfor the same material11, obtained by different operators usingdifferent equipment on different days, the two test results shallbe judged not equivalent if they differ by more than the IRvaluefor that material.11.5.1.6 Any judgment in accordance with 11.5.1.4 a
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