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本文(ASTM D471-2006e1 Standard Test Method for Rubber Property&x2014 Effect of Liquids《液体对橡胶性能影响的标准试验方法》.pdf)为本站会员(confusegate185)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 D471-2006e1 Standard Test Method for Rubber Property&x2014 Effect of Liquids《液体对橡胶性能影响的标准试验方法》.pdf

1、Designation: D 471 061Standard Test Method forRubber PropertyEffect of Liquids1This standard is issued under the fixed designation D 471; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year of last revision. A number in parent

2、heses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.This standard has been approved for use by agencies of the Department of Defense.1NOTEFootnote 4 was corrected editorially in September 2008.1. Scope1.1 This test

3、method covers the required procedures toevaluate the comparative ability of rubber and rubber-likecompositions to withstand the effect of liquids. It is designedfor testing: (1) specimens of vulcanized rubber cut fromstandard sheets (see Practice D 3182), (2) specimens cut fromfabric coated with vul

4、canized rubber (see Test MethodsD 751), or (3) finished articles of commerce (see PracticeD 3183). This test method is not applicable to the testing ofcellular rubbers, porous compositions, and compressed sheetpacking, except as described in 11.2.2.1.2 ASTM Oils No. 2 and No. 3, formerly used in thi

5、s testmethod as standard test liquids, are no longer commerciallyavailable and in 1993 were replaced with IRM 902 and IRM903, respectively (see Appendix X1 for details).1.3 ASTM No. 1 Oil, previously used in this test method asa standard test liquid, is no longer commercially available andin 2005 wa

6、s replaced with IRM 901; refer to Table 1, FootnoteA, and Appendix X3 for details.1.4 This test method includes the following:Change in Mass (after immersion) Section 10Change in Volume (after immersion) Section 11Dimensional-Change Method for Water-Insoluble Liq-uids and Mixed Liquids Section 12Cha

7、nge in Mass with Liquid on One Surface Only Section 13Determining Mass of Soluble Matter Extracted by theLiquid Section 14Change in Tensile Strength, Elongation and Hardness(after immersion) Section 15Change in Breaking Resistance, Burst Strength, TearStrength and Adhesion for Coated Fabrics Section

8、 16Calculation (of test results) Section 171.5 The values stated in SI units are to be regarded as thestandard. The values in parentheses are for information only.1.6 This standard does not purport to address all of thesafety concerns, if any, associated with its use. It is theresponsibility of the

9、user of this standard to establish appro-priate safety and health practices and determine the applica-bility of regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2D92 Test Method for Flash and Fire Points by ClevelandOpen Cup TesterD97 Test Method for Pour Point of Petrol

10、eum ProductsD 287 Test Method forAPI Gravity of Crude Petroleum andPetroleum Products (Hydrometer Method)D 412 Test Methods for Vulcanized Rubber and Thermo-plastic ElastomersTensionD 445 Test Method for Kinematic Viscosity of Transparentand Opaque Liquids (and Calculation of Dynamic Viscos-ity)D611

11、 Test Methods for Aniline Point and Mixed AnilinePoint of Petroleum Products and Hydrocarbon SolventsD 751 Test Methods for Coated FabricsD 865 Test Method for RubberDeterioration by Heatingin Air (Test Tube Enclosure)D 975 Specification for Diesel Fuel OilsD 1217 Test Method for Density and Relativ

12、e Density(Specific Gravity) of Liquids by Bingham PycnometerD 1415 Test Method for Rubber PropertyInternationalHardnessD 1500 Test Method for ASTM Color of Petroleum Prod-ucts (ASTM Color Scale)D 1747 Test Method for Refractive Index of Viscous Mate-rialsD 2008 Test Method for Ultraviolet Absorbance

13、 and Ab-sorptivity of Petroleum ProductsD 2140 Test Method for Carbon-Type Composition of In-sulating Oils of Petroleum OriginD 2240 Test Method for Rubber PropertyDurometerHardness1This test method is under the jurisdiction of ASTM Committee D11 on Rubberand is the direct responsibility of Subcommi

14、ttee D11.15 on Degradation Tests.Current edition approved Oct. 1, 2006. Published November 2006. Originallyapproved in 1937. Last previous edition approved in 1998 as D 471 982.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. F

15、or 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.D 2699 Test Method for Research Octane Number ofSpark-Ignition Engine

16、 FuelD 3182 Practice for RubberMaterials, Equipment, andProcedures for Mixing Standard Compounds and Prepar-ing Standard Vulcanized SheetsD 3183 Practice for RubberPreparation of Product Piecesfor Test Purposes from ProductsD 4483 Practice for Evaluating Precision for Test MethodStandards in the Rub

17、ber and Carbon Black ManufacturingIndustriesD 4485 Specification for Performance of Engine OilsD 4806 Specification for Denatured Fuel Ethanol for Blend-ing with Gasolines for Use as Automotive Spark-IgnitionEngine FuelE 145 Specification for Gravity-Convection and Forced-Ventilation Ovens2.2 SAE St

18、andards:3J 300 Engine Oil Viscosity Classification3. Summary of Test Method3.1 This test method provides procedures for exposing testspecimens to the influence of liquids under definite conditionsof temperature and time. The resulting deterioration is deter-mined by measuring the changes in physical

19、 properties, such asstress/strain properties, hardness, and changes in mass, volume,and dimension, before and after immersion in the test liquid.3.2 The precision statement in Section 19 is based on aninterlaboratory test program run in 1981, using six differentrubbers with ASTM Reference Fuels B, C

20、, D4and ASTM OilsNo. 1 and No. 3.3.3 The precision statement in Appendix X2 is based on aninterlaboratory test program conducted in 1993 to establishreplacements for ASTM Oils No. 2 and No. 3. Because of thelimited number of participating laboratories, only repeatabilitycould be evaluated, and it wa

21、s necessary to use pooled valuesof four No. 2 type oils (No. 2 plus three candidate replacementoils) and four No. 3 type oils (No. 3 plus three candidatereplacement oils). Twelve rubbers were tested in this program.3.4 ASTM Oils No. 1, No. 2, and No. 3 have been replacedby IRM 901, IRM 902, and IRM

22、903, respectively.4. Significance and Use4.1 Certain rubber articles, for example, seals, gaskets,hoses, diaphragms, and sleeves, may be exposed to oils,greases, fuels, and other fluids during service. The exposuremay be continuous or intermittent and may occur over widetemperature ranges.4.2 Proper

23、ties of rubber articles deteriorate during exposureto these liquids, affecting the performance of the rubber part,which can result in partial failure.4.3 This test method attempts to simulate service conditionsthrough controlled accelerated testing, but may not give anydirect correlation with actual

24、 part performance, since serviceconditions vary too widely. It yields comparative data on whichto base judgment as to expected service quality.3Available from Society of Automotive Engineers (SAE), 400 CommonwealthDrive, Warrendale, PA 15096.4The sole source of supply of the reference fuels known to

25、 the committee at thistime is Chevron Phillips Chemical Company, LP, 10001 Six Pines Drive, TheWoodlands, TX 77380. If you are aware of alternative suppliers, please provide thisinformation to ASTM International Headquarters. Your comments will receivecareful consideration at a meeting of the respon

26、sible technical committee,1whichyou may attend.TABLE 1 Specifications and Typical Properties of ASTM and IRM Reference OilsProperty ASTM Oil No. 1AASTM Oil No. 5 IRM 901 IRM 902 IRM 903 ASTM MethodSpecified Properties:Aniline Point, C (F) 124 6 1 (255 6 2) 115 6 1 (2396 2) 124 6 1 (255 62)93 6 3 (19

27、9 6 5) 706 1 (158 62)D611Kinematic Viscosity(mm2/s cSt)38C (100F) . . . 31.934.1 D 44599C (210F) 18.721.0 10.811.9 18.1220.34 19.221.5 . D 445Gravity, API, 16C(60F). . 28.8 6 1 19.021.0 21.023.0 D 287Viscosity-GravityConstant. . 0.7900.805 0.8600.870 0.8750.885 D 2140Flash Point COC, C(F)243 (469) m

28、in 243 (469) min 243(469) min 240 (464) min 163 (325) min D92Naphthenics, CN(%) . . 27 (avg) 35 min 40 min D 2140Paraffinics, CP(%) . . 65 min 50 max 45 max D 2140Typical Properties:Pour Point, C (F) . 15 (5) 12 (10) 12 (10) 31 (24) D97ASTM Color . L 1.0 L 3.5 L 2.5 L 0.5 D 1500Refractive Index . 1.

29、4808 1.4848 1.5105 1.5026 D 1747UV Absorbance, 260 nm . . 0.8 4.0 2.2 D 2008Aromatics, CA(%) . 4 3 12 14 D 2140AASTM Oil No. 1 is no longer commercially available, the specifications are left in place for the purpose of reference until such time as an interlaboratory test programis conducted to dete

30、rmine precision and bias. Refer to Appendix X3.D47106124.4 This test method is suitable for specification compliancetesting, quality control, referee purposes, and research anddevelopment work.5. Test Conditions5.1 Temperature and Immersion PeriodsUnless otherwisespecified the test temperature and i

31、mmersion period shall be asindicated in Table 2, depending upon the anticipated serviceconditions, unless otherwise agreed upon between customerand supplier:5.1.1 When the temperature of the testing room is other thanthe standard 23 6 2C (73 6 4F) the temperature of test shallbe reported.5.1.2 When

32、the relative humidity (RH %) of the testingenvironment is known to effect the performance of a test liquid,the RH % shall be reported.5.1.3 The choice of the immersion period will depend uponthe nature of the vulcanizate, the test temperature, and theliquid to be used. To obtain information on the r

33、ate ofdeterioration it is necessary to make determinations afterseveral immersion periods.5.1.4 The tolerance for any immersion period shall be615 min or 61 % of the immersion period, whichever isgreater.5.1.5 The immersion periods enumerated in Table 2 arefrequently used, and are considered standar

34、d; however, theymay be varied according to a materials testing requirements oranticipated exposure in service.5.2 IlluminationImmersion tests shall be made in theabsence of direct light.6. Standard Test Liquids6.1 For test purposes, it is desirable to use the liquid thatwill come into contact with t

35、he vulcanizate in service. Forcomparative tests with liquids of unknown or doubtful com-position, samples of liquid from the same container or ship-ment shall be used. Many commercial products, particularlythose of petroleum origin, are subject to sufficient variation thatit is not practical to use

36、them for test liquids. It is thenadvisable to use a standard test liquid, such as described in6.1.1 and 6.1.2, covering the range of properties that may beencountered in the particular service.6.1.1 IRM and ASTM OilsThe test shall be conducted inone of the petroleum-base IRM or ASTM oils (Note 1)spe

37、cified in Table 1 that has its aniline point nearest that of theoil with which the vulcanizate is expected to come in contactin service except as indicated in 6.1.3.NOTE 1The aniline point of a petroleum oil appears to characterizethe swelling action of that oil on rubber vulcanizates. In general, t

38、he lowerthe aniline point, the more severe the swelling action by the oil. The oilsspecified in Table 1 cover a range of aniline points commonly found inlubricating oils.6.1.2 ASTM Reference FuelsWhen gasolines or dieselfuels are to be encountered in service, the test shall beconducted in one of the

39、 ASTM reference fuels (Note 2)specified in Table 3, except as indicated in 6.1.3.NOTE 2The ASTM reference fuels in Table 3 have been selected toprovide the maximum and minimum swelling effects produced bycommercial gasolines. Reference Fuel A has a mild action on rubbervulcanizates and produces resu

40、lts of the same order as low swellinggasolines of the highly paraffinic, straight run type. Reference Fuels B, C,and D simulate the swelling behavior of the majority of commercialgasolines, with Reference Fuel C producing the highest swelling which istypical of highly aromatic premium grades of auto

41、motive gasoline.Reference Fuel F (diesel fuel) swells rubber vulcanizates to a lesser extentthan Reference Fuel B. Reference Fuels G, H, and I are fuel-alcoholblends (gasohol), which have a stronger swelling action than the corre-sponding fuel alone, where blends with methanol are more severe thanbl

42、ends with ethanol. Reference Fuel K, a methanol-rich blend, has asubstantially weaker swelling action than that of the fuel used to preparethe blend. Reference Fuels I and K are also referred to as M15 and M85,respectively.6.1.3 Service LiquidsSome commercial oils, fuels andother service liquids (se

43、e Table 4) are either non-petroleum orare compounded from special petroleum hydrocarbon fractionsor mixtures of petroleum hydrocarbon fractions and otheringredients resulting in materials having properties beyond therange of the reference fluids listed in Table 1 and Table 3.Immersion tests of rubbe

44、r vulcanizates that are to come intocontact with such fluids should be made in the actual serviceliquid.6.1.4 WaterSince the purity of water varies throughoutthe world, all water immersion tests shall be conducted indistilled or deionized water.7. Preparation of Specimen7.1 Except as otherwise speci

45、fied in the applicable specifi-cations, specimens shall be prepared in accordance with therequirements of Practices D 3182 and D 3183.8. Apparatus8.1 For non-volatile liquids, a glass test tube, having anoutside diameter of 38 mm (1.5 in.) and an overall length ofTABLE 2 Test Temperatures and Immers

46、ion PeriodsTemperature in C (F)ImmersionPeriod, h75 6 2 (103 6 4) 85 6 2 (185 6 4) 2255 6 2 (67 6 4) 100 6 2 (212 6 4) 4640 6 2 (40 6 4) 125 6 2 (257 6 4) 7025 6 2 (13 6 4) 150 6 2 (302 6 4) 16610 6 2(146 4) 175 6 2 (347 6 4) 6700 6 2(326 4) 200 6 2 (392 6 4) 100623 6 2(736 4) 225 6 2 (437 6 4) 2998

47、50 6 2 (122 6 4) 250 6 2 (482 6 4) 499070 6 2 (158 6 4)TABLE 3 ASTM Reference FuelsFuel Type Composition, Volume %Reference Fuel A IsooctaneA, 100Reference Fuel B IsooctaneA, 70; TolueneA,30Reference Fuel C IsooctaneA, 50; TolueneA,50Reference Fuel D IsooctaneA, 60; TolueneA,40Reference Fuel E Tolue

48、neA, 100Reference Fuel F Diesel Fuel, Grade No. 2B, 100Reference Fuel G Fuel D, 85; anhydrous denatured ethanolC,15Reference Fuel H Fuel C, 85; anhydrous denatured ethanolC,15Reference Fuel I Fuel C, 85; anhydrous methanol, 15Reference Fuel K Fuel C, 15; anhydrous methanol, 85AMotor Fuels, Section 1

49、, Test Method D 2699BSpecification D 975.CAnhydrous ethanol denatured with unleaded gasoline, Section 4, PerformanceRequirements, Specification D 4806.D4710613300 mm (12 in.) fitted loosely with a stopper (see 8.2.1) shallbe used. Glass beads shall be used in the liquid as a bumper andto separate the specimens; refer to 8.3.1.8.2 For volatile liquids, the test tube described in 8.1 shallbe tightly fitted with a stopper (see 8.2.1) and a refluxcondenser. An air-cooled reflux condenser shall be used forASTM Oils No. 15,6a

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